Difference between revisions of "Guide to Scenario Analysis in International Futures (IFs)"

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* each variable marked with an asterisk has a companion variable with the suffix DEM, which indicates the expected/demanded level of the variable in the absence of funding constraints. Please see the note below for a more comprehensive description of the difference<sup>6</sup>
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*each variable marked with an asterisk has a companion variable with the suffix DEM, which indicates the expected/demanded level of the variable in the absence of funding constraints. Please see the note below for a more comprehensive description of the difference<sup>6</sup>
  
 
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| colspan="2" style="width:637px;" |  
* the companion variables, '''INFRABUDDEMMNT''' and '''INFRABUDDEMNEW''', are the amounts of public spending originally requested prior to the government budget allocation process
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*the companion variables, '''INFRABUDDEMMNT''' and '''INFRABUDDEMNEW''', are the amounts of public spending originally requested prior to the government budget allocation process
  
 
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</div></div>
 
</div></div>
 
== '''<span style="font-size:small;">Roads</span>''' ==
 
== '''<span style="font-size:small;">Roads</span>''' ==
 
 
  
 
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== <span style="font-size:x-large;">Parameters to Affect Funding</span> ==
 
== <span style="font-size:x-large;">Parameters to Affect Funding</span> ==
 
 
  
 
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Because of the complexity of the infrastructure module, and the sheer number of parameters it contains, users may wish to rely more heavily on prepackaged scenarios in order to find effective combinations of multipliers than they do in other IFs modules. One package of scenarios that was developed to model extensions of ICT broadband connectivity and resulting potential gains in efficiency of energy use was developed for the EU and includes modifications to a number of parameters. '''Ictbroadm''' is used to increase broadband penetration rates while '''lke''' (lifetime of capital in energy) increases the efficiency of energy capital investments, making energy production more efficient. This prepackaged scenario set can be accessed from the Scenario Development form of IFs, using the Add Scenario Component menu option. The set can be found within the World Integrated Scenario Sets grouping where it is labeled ICT Scenarios for the EU. See Acknowledging Limits, Betting on Silver Bullets, Broadband Stupidity, and Networked Solutions (Moyer and Hughes, 2012).
 
Because of the complexity of the infrastructure module, and the sheer number of parameters it contains, users may wish to rely more heavily on prepackaged scenarios in order to find effective combinations of multipliers than they do in other IFs modules. One package of scenarios that was developed to model extensions of ICT broadband connectivity and resulting potential gains in efficiency of energy use was developed for the EU and includes modifications to a number of parameters. '''Ictbroadm''' is used to increase broadband penetration rates while '''lke''' (lifetime of capital in energy) increases the efficiency of energy capital investments, making energy production more efficient. This prepackaged scenario set can be accessed from the Scenario Development form of IFs, using the Add Scenario Component menu option. The set can be found within the World Integrated Scenario Sets grouping where it is labeled ICT Scenarios for the EU. See Acknowledging Limits, Betting on Silver Bullets, Broadband Stupidity, and Networked Solutions (Moyer and Hughes, 2012).
  
Other Prepackaged Scenarios were developed for Chapter 6 of the Infrastructure volume of the ''Patterns of Potential Human Progress ''series (Rothman et al., 2013). This set of scenarios can be located in the PPHP InfrastructureChapter6 grouping of the World Integrated Scenario Sets. It contains a large number of scenarios using infrastructure targets. The scenario TarAllNNoBudgPriority, referred to as Universal Targets Pursuit in the volume, represents a future in which efforts are made to achieve universal access to water and sanitation, electricity, rural roads, and mobile broadband, as well as the elimination of solid fuel use, by 2030; no budget priority is given to infrastructure in this scenario. The scenario TarSENoBudgPriority has the same target date of 2030, but instead of universal access, countries only aim to achieve levels of access that exceed the expected value for their level of development by one standard deviation; again no budget priority is given to infrastructure. The other scenarios, TarAll2050NoBudgPriority, TarElecNoBudgPriority, TarICTNoBudgPriority, TarSE0NoBudgPriority, TarSENoP2050, TarTranNoBudgPriority, and TarWatNoBudgPriority, build on these two scenarios, adjusting the target level, the target date, or the categories of infrastructure with targets.  
+
Other Prepackaged Scenarios were developed for Chapter 6 of the Infrastructure volume of the ''Patterns of Potential Human Progress ''series (Rothman et al., 2013). This set of scenarios can be located in the PPHP InfrastructureChapter6 grouping of the World Integrated Scenario Sets. It contains a large number of scenarios using infrastructure targets. The scenario TarAllNNoBudgPriority, referred to as Universal Targets Pursuit in the volume, represents a future in which efforts are made to achieve universal access to water and sanitation, electricity, rural roads, and mobile broadband, as well as the elimination of solid fuel use, by 2030; no budget priority is given to infrastructure in this scenario. The scenario TarSENoBudgPriority has the same target date of 2030, but instead of universal access, countries only aim to achieve levels of access that exceed the expected value for their level of development by one standard deviation; again no budget priority is given to infrastructure. The other scenarios, TarAll2050NoBudgPriority, TarElecNoBudgPriority, TarICTNoBudgPriority, TarSE0NoBudgPriority, TarSENoP2050, TarTranNoBudgPriority, and TarWatNoBudgPriority, build on these two scenarios, adjusting the target level, the target date, or the categories of infrastructure with targets.
  
 
= <span style="font-size:xx-large;">Agriculture Module</span> =
 
= <span style="font-size:xx-large;">Agriculture Module</span> =
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{| border="1" cellspacing="1" cellpadding="1" style="width:500px;"
 
{| border="1" cellspacing="1" cellpadding="1" style="width:500px;"
 
|-
 
|-
| Variable Name
+
| '''Variable Name'''
| Description
+
| '''Description'''
 
|-
 
|-
 
| '''AGDEM'''<br/>
 
| '''AGDEM'''<br/>
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|-
 
|-
 
| '''AGP'''<br/>
 
| '''AGP'''<br/>
| Agricultural production <br/>
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| Agricultural production<br/>
 
|-
 
|-
 
| '''YL'''<br/>
 
| '''YL'''<br/>
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|-
 
|-
 
| '''FISH'''<br/>
 
| '''FISH'''<br/>
| Fish production from ocean and mariculture <br/>
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| Fish production from ocean and mariculture<br/>
 
|-
 
|-
 
| '''AGM'''<br/>
 
| '''AGM'''<br/>
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== <span style="font-size:x-large;">Parameters to Affect Demand</span> ==
 
== <span style="font-size:x-large;">Parameters to Affect Demand</span> ==
<span style="font-size:x-large;"></span>
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|}
  
<span style="font-size:x-large;"></span>A brute force multiplier on agricultural demand ('''agdemm''') allows direct manipulation of demand and can be used to represent a wide range of scenarios relative to the Base Case, including changing tastes among consumers, changing responses to prices, and changes in incomes or the movement of individuals into the middle class. Changes in consumer desires for certain foods could also be modeled using the parameter '''calmeatm '''which adjusts the portion of calories obtained from meat. Like '''agdemm, '''it is a multiplicative parameter, so a 0.2 increase in the value of the parameter from its base value of 1.0 would generate a 20% increase in the value of the variable relative to the base case. However, this is a relatively difficult parameter for which to identify reasonable values for such changes. Similarly, changes to '''elascd''' (elasticity of crop demand to changes in price) and '''elasmd''' (elasticity of meat demand to changes in price) should be made with caution because they involve changing the responsiveness of demand to changes in price. Such parametric interventions might be appropriate in cases where you want to model the impact of a mass movement to change diet patterns, such as in response to a national campaign for healthy eating or decreased meat consumption due to preference changes. In all three cases the relevant outcome variable is '''AGDEM'''.
+
A brute force multiplier on agricultural demand ('''agdemm''') allows direct manipulation of demand and can be used to represent a wide range of scenarios relative to the Base Case, including changing tastes among consumers, changing responses to prices, and changes in incomes or the movement of individuals into the middle class. Changes in consumer desires for certain foods could also be modeled using the parameter '''calmeatm '''which adjusts the portion of calories obtained from meat. Like '''agdemm, '''it is a multiplicative parameter, so a 0.2 increase in the value of the parameter from its base value of 1.0 would generate a 20% increase in the value of the variable relative to the base case. However, this is a relatively difficult parameter for which to identify reasonable values for such changes. Similarly, changes to '''elascd''' (elasticity of crop demand to changes in price) and '''elasmd''' (elasticity of meat demand to changes in price) should be made with caution because they involve changing the responsiveness of demand to changes in price. Such parametric interventions might be appropriate in cases where you want to model the impact of a mass movement to change diet patterns, such as in response to a national campaign for healthy eating or decreased meat consumption due to preference changes. In all three cases the relevant outcome variable is '''AGDEM'''.
  
 
== <span style="font-size:x-large;">Parameters to Affect Supply (Production)</span> ==
 
== <span style="font-size:x-large;">Parameters to Affect Supply (Production)</span> ==
<span style="font-size:x-large;"></span>
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|-
 
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|}
 
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<span style="font-size:x-large;"></span>
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There are two primary channels to think about changing the supply of agricultural production. The first is via increases in the amount of resources devoted to agricultural production such as by increasing the amount of land under cultivation. This can be done via the '''tgrld '''parameter. The earth’s arable land is relatively finite, however, and land under cultivation has not been a major driver of increased production for decades in most countries.
 
There are two primary channels to think about changing the supply of agricultural production. The first is via increases in the amount of resources devoted to agricultural production such as by increasing the amount of land under cultivation. This can be done via the '''tgrld '''parameter. The earth’s arable land is relatively finite, however, and land under cultivation has not been a major driver of increased production for decades in most countries.
  
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Technological improvement is not the only pathway through which yield (YL) may be affected within IFs. Financial pathways can change the amount of capital being invested in agriculture, resulting in higher yields. For example, parameter '''aginvm''', directly changes the investment in agriculture. This parameter can be used to model the effects of investment in improved agricultural technologies like genetically modified crops or new methods of aquaculture. Because of the financial accounting systems within IFs, changes in agricultural investment will affect investment in other sectors. '''Elagind''' is a parameter that may be useful those who wish to adjust the percentage of crop production that is diverted for industrial uses such as ethanol, or beer.
 
Technological improvement is not the only pathway through which yield (YL) may be affected within IFs. Financial pathways can change the amount of capital being invested in agriculture, resulting in higher yields. For example, parameter '''aginvm''', directly changes the investment in agriculture. This parameter can be used to model the effects of investment in improved agricultural technologies like genetically modified crops or new methods of aquaculture. Because of the financial accounting systems within IFs, changes in agricultural investment will affect investment in other sectors. '''Elagind''' is a parameter that may be useful those who wish to adjust the percentage of crop production that is diverted for industrial uses such as ethanol, or beer.
  
== <span style="font-size:x-large;">Parameters to Affect Nutrition</span><span style="font-size:x-large;"></span> ==
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== <span style="font-size:x-large;">Parameters to Affect Nutrition</span> ==
  
 
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<span style="font-size:x-large;"></span>Finally, model users may wish to use parameters to explore the health and economic impacts of different levels of nutritional deficiencies. In the health model, nutritional deficiency manifests itself in terms of mortality and morbidity related to communicable diseases. It can have especially large effects on children, who if malnourished for a significant period of their childhood, suffer developmental and cognitive delays that can impact their future productivity. The most important of these parameters is '''malnm, '''which is a multiplicative parameter that affects the number of malnourished children in a country as a percent of the population. This parameter could also be used to represent the impact of school based nutrition programs or other targeted feeding programs.  
+
Finally, model users may wish to use parameters to explore the health and economic impacts of different levels of nutritional deficiencies. In the health model, nutritional deficiency manifests itself in terms of mortality and morbidity related to communicable diseases. It can have especially large effects on children, who if malnourished for a significant period of their childhood, suffer developmental and cognitive delays that can impact their future productivity. The most important of these parameters is '''malnm, '''which is a multiplicative parameter that affects the number of malnourished children in a country as a percent of the population. This parameter could also be used to represent the impact of school based nutrition programs or other targeted feeding programs.
  
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
<span style="font-size:x-large;"></span>
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One prepackaged scenario that makes significant improvements to agricultural yield in the developing world was developed as a policy brief, and models the impact of a green revolution in Africa. The scenario combines multipliers and other parameters, including '''ylm, ylmax, aginvm, '''and'''tgrld'''. It was designed to model the impact of a green revolution type of event occurring in the developing world and involving improved yield of crops through improvements in cultivation techniques and new technologies. Users will find it saved under the African Policy Briefs section of the World Integrated Scenario Sets, under the heading Green Revolution, which is also the title of the scenario. It increases agricultural yields by 76 percent over a 32-year period (increasing the parameter '''ylm''' to 1.76). It also increases the maximum yield in all African countries, as well as modeling 20 percent growth in agricultural investment and an initial target for growth in cultivated land of 8 percent.
 
One prepackaged scenario that makes significant improvements to agricultural yield in the developing world was developed as a policy brief, and models the impact of a green revolution in Africa. The scenario combines multipliers and other parameters, including '''ylm, ylmax, aginvm, '''and'''tgrld'''. It was designed to model the impact of a green revolution type of event occurring in the developing world and involving improved yield of crops through improvements in cultivation techniques and new technologies. Users will find it saved under the African Policy Briefs section of the World Integrated Scenario Sets, under the heading Green Revolution, which is also the title of the scenario. It increases agricultural yields by 76 percent over a 32-year period (increasing the parameter '''ylm''' to 1.76). It also increases the maximum yield in all African countries, as well as modeling 20 percent growth in agricultural investment and an initial target for growth in cultivated land of 8 percent.
  
Another prepackaged scenario that makes significant changes to agriculture is the Politics of Belly scenario developed for the African Futures 2050 project. This scenario is located in the Afp 2050 folder in the World Integrated Scenario Sets heading. This posits a much less positive outlook for African agriculture, simulating a 20 percent decline in yields that could represent the negative impact of climate change, much more than offsetting the mitigating effect that plant responsiveness to C02 increases might have on yields.
+
Another prepackaged scenario that makes significant changes to agriculture is the Politics of Belly scenario developed for the African Futures 2050 project. This scenario is located in the Afp 2050 folder in the World Integrated Scenario Sets heading. This posits a much less positive outlook for African agriculture, simulating a 20 percent decline in yields that could represent the negative impact of climate change, much more than offsetting the mitigating effect that plant responsiveness to C02 increases might have on yields.  
<span style="font-size:x-large;"></span>
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= <span style="font-size:xx-large;">Energy Module</span> =
 
= <span style="font-size:xx-large;">Energy Module</span> =
  
 
== <span style="font-size:x-large;">Variables of Interest</span> ==
 
== <span style="font-size:x-large;">Variables of Interest</span> ==
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<span style="font-size:x-large;"></span>
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{| border="1" cellspacing="1" cellpadding="1" width="366" style="width:366px;"
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|-
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| nowrap="nowrap" style="width:135px;height:24px;" |
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'''Variable Name'''
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| nowrap="nowrap" style="width:231px;height:24px;" |
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'''Description'''
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''ENDEM'''
 +
 +
| nowrap="nowrap" style="width:231px;height:23px;" |
 +
Energy demand
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 +
|-
 +
| nowrap="nowrap" style="width:135px;height:23px;" |
 +
'''WEP'''
 +
 +
| nowrap="nowrap" style="width:231px;height:23px;" |
 +
World energy prices
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 +
|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
 +
'''WEPBYEAR'''
 +
 +
| nowrap="nowrap" style="width:231px;height:23px;" |
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Translates global energy prices into dollars per barrel of oil equivalent
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 +
|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
 +
'''ENPRI'''
 +
 +
| nowrap="nowrap" style="width:231px;height:23px;" |
 +
Energy prices
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''ENST'''
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 +
| nowrap="nowrap" style="width:231px;height:23px;" |
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Energy stock
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''ENRGDP'''
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 +
| nowrap="nowrap" style="width:231px;height:23px;" |
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Ratio of energy demand to GDP
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''ENP'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Energy production
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''WENP'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Global energy production
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''KS'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Capital stock
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''IDS'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Investment in energy
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''QE'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Capital output ratio
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''RESER'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Accessible energy reserves
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''RESOR'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Ultimate conventional energy resources
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''RESORUNCON'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Ultimate unconventional energy resources
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 +
|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''ENM'''
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 +
| nowrap="nowrap" style="width:231px;height:23px;" |
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Energy imports
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''ENX'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Energy exports
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''ENSHO'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Energy shortage
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|-
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| nowrap="nowrap" style="width:135px;height:23px;" |
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'''VADD'''
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| nowrap="nowrap" style="width:231px;height:23px;" |
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Value added, energy
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|}
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<span style="font-size:x-large;"></span>Rapid development of unconventional oil and gas production—particularly from shale sources—and high rates of growth in energy from renewable sources make the future of energy highly uncertain. Several research organizations have forecasting projects that provide long-term analysis. In the United States, the Department of Energy's Energy information Agency produces a yearly report titled, ''International Energy Outlook; ''the International Energy Agency produces similar forecasts for the world as a whole, as well as for many individual countries, in its annual ''World Energy Outlook.'' The IFs energy module contributes to this existing body of research on international energy futures. A selection of variables and parameters allows users to explore alternative patterns of energy demand, production, resource discovery and technological developments.
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The structure of the IFs energy model is similar to that of the agriculture module, [[#_Agriculture_Module|discussed in the preceding section]]. Both systems are driven by demand and supply dynamics within an equilibrium-seeking system that involves prices, trade, and investment. In both cases, the model translates forecasts of the physical system into value terms for the economic module and interaction with other sectors. The size of the economy and population shape demand, which IFs represents in the aggregate (not within sub-categories such as transportation, residential/commercial and industrial). The supply side differentiates production dynamics for oil, gas, coal, hydroelectric, nuclear, and other renewable energy and separately represents conventional and unconventional energy resources, such as shale deposits.
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Beginning our elaboration with the demand side first, IFs derives each country’s energy demand from the overall size of the economy, the level of development as measured by GDP per capita, and world energy prices. The variable '''ENDEM,''' displayed as a default in billion barrels of oil equivalent (BBOE), captures demand from all sectors, and for all types of energy. The energy intensity of an economy—the usage of energy per unit of GDP ('''ENRGDP''')—is a very important measure, influenced by the development level, the advance of technology, and energy prices. Reductions in that, or improvements of efficiency over time, have been occurring in most countries. Users may explore several different formulations of energy price, which is a key factor used to derive demand and affect the energy intensity. '''WEP''' is a single composite measure of the global price of energy, expressed as an index with a base of 100 in the first model year ('''WEPBYEAR''' translates global energy prices into dollars per barrel of oil equivalent). Like '''WEP''', '''ENPRI''' displays country-level energy price as an index, base 100. Each country’s price is a function of global capital costs of energy production and a regional markup factor that reflects the level of country-specific energy stocks ('''ENST''').
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Key indicators for the other side of the energy system, the supply side, include production, capital/output ratio and available natural resources. Production is measured in the variable '''ENP'''; production can be displayed as a total, or disaggregated through the energy type dimension to produce individual displays of oil, natural gas, coal, hydroelectric power, nuclear, and other renewables. '''WENP '''is energy production for the world as a whole, disaggregated by production type. For each country, energy production is partially determined by relationships around capital. The portion of the initial capital stock dedicated to the energy sector, '''KS''', limits the scale of possible production. And the capital-output ratio, '''QE''', translates capital stock ('''KS''') into production level. Capital stock itself is augmented over time by investment,'''IDS''', dependent on the profitability of investment in energy.
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The concept of capital-output ratio ('''QE''') warrants clarification because it is important to the energy module's equilibrating dynamics. When production requires relatively little invested capital to produce a unit of output, the capital-output ratio is low. Conversely, a high ratio would mean a large amount of capital is required to produce a unit of output. All things equal, the lower the capital-output ratio, the greater the opportunity for profits. Thus, in the model, a low '''QE '''will generally trigger an increase in production.
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Available natural resources are the final factor constraining supply. Levels of proven reserves, '''RESER''', drive the price structure component of production—by affecting '''QE'''. Proven reserves are in turn bounded by the availability of ultimately recoverable resources, displayed in the variable '''RESOR '''for conventional resources, and the variable'''RESORUNCON '''for unconventional resources, both of which must be discovered ('''RD''') to become reserves. As we shall see in the discussion of parameters, '''QE''' is affected not just by resource constraints, but also by the advance of technology.
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A set of trade variables measures countries’ external reliance on energy. While high levels of energy exports can enrich public finances through taxation, an overreliance on either energy imports or exports increases vulnerability to external price shocks. Energy imports and exports are measured in billion barrels of oil equivalent by '''ENM '''and '''ENX''' and represent aggregate trade in energy without distinguishing energy types. A more direct indication of vulnerability to shock is located in Flexible Display, under the heading Energy Imports as a Percent of Total Demand.
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Disruptive price swings are inherent to any commodity market. In energy markets they can result from either political disruption in energy producers such as Iraq or from collusion among producers—evidenced by the cartel behavior of The Organization of Petroleum Exporting Countries (OPEC). As economists point out, prices can theoretically always rise or fall to balance demand and supply—to clear the market. But as history has shown, severe energy shocks, sometimes in environments where leaderships do not allow prices to fully adjust, can result in actual physical shortages ('''ENSHO'''). In normal years the level of energy stocks in a country is visible through the variable '''ENST'''.
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A final set of indicators, measured not in physical but in monetary value terms, represents the overlap between the energy and economic modules in IFs. The variable '''VADD '''displays the total value added that is contributed to a country's GDP by various sectors, including energy; this gives a quick look at how much a country relies on energy production as a source of wealth. Investment ('''IDS''') and capital stock ('''KS''') present additional measures of the size of the energy sector in absolute terms and relative to other sectors.
  
 
== <span style="font-size:x-large;">Parameters to Affect Demand</span> ==
 
== <span style="font-size:x-large;">Parameters to Affect Demand</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="578" style="width:578px;"
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|-
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| nowrap="nowrap" style="width:79px;height:22px;" |
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'''Parameter'''
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| nowrap="nowrap" style="width:103px;height:22px;" |
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'''Variable of Interest'''
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| nowrap="nowrap" style="width:305px;height:22px;" |
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'''Description'''
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| nowrap="nowrap" style="width:91px;height:22px;" |
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'''Type'''
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|-
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| nowrap="nowrap" style="width:79px;height:22px;" |
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'''endemm'''
 +
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| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENDEM
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Energy demand
 +
 +
| nowrap="nowrap" style="width:91px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:79px;height:22px;" |
 +
'''elasde'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENP, WEP
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Price elasticity of energy demand
 +
 +
| nowrap="nowrap" style="width:91px;height:22px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:79px;height:22px;" |
 +
'''carbtax'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Carbon tax
 +
 +
| nowrap="nowrap" style="width:91px;height:22px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:79px;height:24px;" |
 +
'''enrgdpgr'''
 +
 +
| nowrap="nowrap" style="width:103px;height:24px;" |
 +
ENP, QE
 +
 +
| nowrap="nowrap" style="width:305px;height:24px;" |
 +
Growth in energy efficiency
 +
 +
| nowrap="nowrap" style="width:91px;height:24px;" |
 +
Rate of change
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
The demand side of the energy system features several leverage points that can be used to create alternative scenarios. The multiplier '''endemm''' directly manipulates aggregate energy demand in a country or region relative to its underlying calculation from economic size and other driving variables. A second key demand-side parameter, '''enrgdpgr''', allows the user to change the default rate of change in energy intensity (the inverse of energy efficiency). Turning from the more brute-force parametric intervention approaches to a more policy specific one, country-level energy prices and therefore energy demand can also be manipulated directly through the additive parameter '''carbtax'''. As the name implies, this parameter simulates the effects of a tax on carbon emissions—even employed at a reasonable level, a carbon tax can have substantial impacts on energy demand.
 +
 +
In the energy analysis community there is always some uncertainty and debate concerning the strength of the relationship between energy price and demand. The parameter '''elasde''' allows users to change the long-term price elasticity of demand. This elasticity is negative in the model, corresponding to traditional formulations of supply and demand—as prices rise demand for energy falls. Users building scenarios may wish to experiment with different values of '''elasde''', while bearing in mind the possibility that long-term and short-term elasticities may differ.
 +
 +
&nbsp;These demand-side leverage points offer a rich area for experimentation. Work by groups such as the International Energy Agency (IEA) and the International Panel on Climate Change (IPCC), have simulated several alternative future forecasts for energy efficiency development.
  
 
== <span style="font-size:x-large;">Parameters to Affect Supply</span> ==
 
== <span style="font-size:x-large;">Parameters to Affect Supply</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="602" style="width:602px;"
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''enpm'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Production multiplier
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''eprodr'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Production growth rate
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''resorm'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
RESOR&nbsp;
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Conventional resource multiplier
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''resorunconm'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
RESORUNCON
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Unconventional resource multiplier
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''rdm'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
RESER
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Discovery multiplier
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''etechadv'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
QE
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Rate of technical advance in energy
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''etechadvuncon'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
QE
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Rate of technical advance in unconventional energy
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''qem'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
QE
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Capital output multiplier
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''eninvm'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENIV
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Energy investment
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''enprix'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENPRI
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Regional energy price
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:98px;height:22px;" |
 +
'''enml, enxl'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENM, ENX
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Limits on energy imports and exports
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Exogenous specification
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
Turning to the supply side of the IFs energy module, two parameters in the model directly alter the relative production of oil, gas, coal, hydroelectric, nuclear, and other renewable energy. '''Enpm''', a multiplier, scales up or down existing production of a specified energy type; '''eprodr''', a growth rate parameter, forces a specified yearly percentage increase in production on the desired energy type. Both types of direct production modification can be used to trace the effects that a shift in energy production profile may have on life in a country, region, or the entire global community. For some observers, renewables represent the most important source of uncertainty surrounding the character global energy production. The IFs Base Case forecast assumes that renewable energy will grow rapidly in importance in the decades to come – see '''WENP''' across all energy types for a clear depiction. What if the model’s baseline assumptions are too optimistic, or too pessimistic? Scenarios created with '''enpm '''and'''eprodr''' can explore variations on the Base Case renewable energy story.
 +
 +
Moving below the direct interventions on production to parameters that affect the drivers of that production, both conventional and unconventional deposits of oil, gas and coal resources offer possible points of leverage for supply-side energy scenarios. As mentioned above, IFs divides raw materials used in energy production into resources and reserves. Scenario interventions are most effective when they include simultaneous changes to the reserves that are very closely tied to production, and to the more distil element of total resources (resources only become reserves when they are discovered and deemed to be economically exploitable with current technology and prices). An increase to the '''resorm '''or'''resorunconm '''parameters will expand the amount of materials that can potentially transition to reserves and become economically viable. As a second step, users can speed up this transition by manipulating '''rdm''', a parameter that represents the rate of geologic discovery (or improved economic exploitability) in a country. An increase in the stock of fossil fuel reserves creates the possibility that they will be produced and that they will have forward impacts on energy price ('''ENPRI''') and '''GDP''' of energy producing countries.
 +
 +
A key source of uncertainty around the future of energy supply concerns production costs. Technological progress could dramatically increase the amount of energy output possible at current levels of investment. The parameters '''etechadv''' and '''etechadvuncon''' directly control the rate of technological advance and cost reduction by energy type, whether based on fossil fuels or renewable energy. For fossil-based energy in particular, several other parameters enable users to explore the consequences of various energy production cost structures. '''Qem''', a capital-output multiplier, directly scales up—or down—the capital cost per output unit of each energy type at the country level.
 +
 +
Government policies could additionally affect the future of energy production. Actions such as tax increases or direct subsidies can be simulated using '''eninvm''', an investment multiplier. The parameter either increases or decreases overall investment in energy—the model still controls which energy-type is affected, based on price signals. Remember that the equilibrating mechanisms of the model will respond to any change in investment patterns. For example, an increase in investment flowing to oil, would increase production, eventually reducing oil prices, and leading to a subsequent decrease in investment. Remember also that the accounting mechanisms of the model will assure that any additional investment in energy will come from somewhere, such as investment in other sectors, other government expenditures, or household consumption.
 +
 +
Government decisions can also affect energy prices quickly, through intentional price shocks similar to those initiated by OPEC in the 1970s. The '''enprix''' parameter can simulate a concerted effort on the part of energy exporters to fix prices; '''enprix '''exogenously sets the type-specific energy price—'''ENPRI'''— for a region. As in real life, any price fixing scenario will have wide-ranging, and potentially perverse economic consequences. Two additional parameters exist that can simulate short-term supply disruptions via trade restrictions: '''enml '''exogenously imposes a limit to energy imports and '''enxl''' imposes a limit to energy exports.
  
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 +
 +
<span style="font-size:x-large;"></span>Currently, none of the prepackaged scenario files demonstrate the use of parameters linked to the energy module.<span style="font-size:x-large;"></span>
  
 
= <span style="font-size:xx-large;">Environment Module</span> =
 
= <span style="font-size:xx-large;">Environment Module</span> =
  
 
== <span style="font-size:x-large;">Variables of Interest</span> ==
 
== <span style="font-size:x-large;">Variables of Interest</span> ==
 +
 +
{| border="1" cellspacing="1" cellpadding="1" style="width:500px;"
 +
|-
 +
| '''Variable Name'''
 +
| '''Description'''
 +
|-
 +
| '''CO2PPM'''<br/>
 +
| CO2 parts per million<br/>
 +
|-
 +
| '''CO2PER'''<br/>
 +
| Percentage increase in atmospheric CO2<br/>
 +
|-
 +
| '''CARANN'''<br/>
 +
| Annual carbon emissions from fossil fuels<br/>
 +
|-
 +
| '''CARFOROTH'''<br/>
 +
| Annual net carbon release from forests<br/>
 +
|-
 +
| '''WTEMP'''<br/>
 +
| Average annual world temperature<br/>
 +
|-
 +
| '''ENVTPCHG'''<br/>
 +
| Annual average temperature change from 1990<br/>
 +
|-
 +
| '''ENVPRCHG'''<br/>
 +
| Annual average precipitation change from 1990<br/>
 +
|-
 +
| '''WFORST'''<br/>
 +
| World forest area<br/>
 +
|-
 +
| '''LD'''<br/>
 +
| Land area by type<br/>
 +
|-
 +
| '''WATUSE'''
 +
| Annual water usage<br/>
 +
|-
 +
| '''WATUSEPC'''<br/>
 +
| Annual water usage per capita<br/>
 +
|-
 +
| '''ENVPM2PT5'''<br/>
 +
| PM2.5 levels in residential areas<br/>
 +
|-
 +
| '''ENSOLFUEL'''<br/>
 +
| Solid fuel use<br/>
 +
|}
 +
 +
As the global population has grown, and more and more countries have industrialized, sustainable development has come to occupy a permanent place on national, regional and global agendas. Growing concern for the environment was brought to the fore at the 1992 UN Conference on the Environment in Rio de Janiero. More than 2 decades have passed since the Rio conference, and the global community’s dedication to environmental concerns (if not always to action) has remained strong. In 2012 a follow up conference was held in Rio—the United Nation’s Conference on Sustainable Development, or Rio + 20—at which leaders discussed strategies to end poverty, address environmental destruction and build a bridge to the future. Other forward-looking environmental initiatives include the United Nations Environment Program’s (UNEP) Global Environmental Outlook Series. Since the first entry in the series, published in 1997, the UNEP has followed up with four additional reports (the International Futures model contributed to the most recent report). Despite the creation of dozens of internationally agreed upon goals, 2012’s ''Global Environmental Outlook 5'' warned that the world remains on an unsustainable path. Around the world, forestland is decreasing, centuries-old glaciers are retreating, aquifers are being depleted and the amount of atmospheric carbon dioxide is on the rise. Not all environmental trends are negative, however. Developed countries have made progress on urban air pollution. Developing countries have experienced improved drinking water quality and safe sanitation access. And globally, the volume of CFCs damaging the ozone layer has dropped dramatically over the course of recent decades.
 +
 +
Environmental issues have potential or actual connections to all of the modules in IFs. For instance, processes associated with energy, agriculture, infrastructure, and the broader economy directly impact the earth’s forests, water supply, and atmosphere, as does governance more indirectly. The environmental module elaborates a subset of these potential connections in four specific areas: the global carbon cycle, land use (notably forest area), water use (agricultural), and air quality (urban and indoor).
 +
 +
The numerous ways in which human actions influence the environment are evident throughout the carbon cycle. Carbon is continuously moving within and across the boundaries of the Earth’s atmosphere, hydrosphere and biosphere. In systems dynamics terminology, the elements in the cycle are known as stocks and flows. Put simply, stocks are long-term repositories of carbon such as the world's fossil fuels, biomass and oceans, and flows are movements from one stock to another. This stock-flow dichotomy serves as a useful heuristic for users who are interested in creating scenarios in the IFs environment model more generally, but especially with respect to carbon. Interventions can target carbon stocks through processes that affect flows, such as energy production and reforestation. Key carbon stock indicators are '''CO2PPM''', the level of atmospheric carbon dioxide measured in parts per million, and '''CO2PER''', atmospheric carbon dioxide, measured as a percent relative to pre-industrial levels. On the flow side, key indicators available in the model include '''CARANN''', the annual flow of carbon emissions from fossil fuel use, and '''CARFOROTH''', global net carbon released annually from forests and other sources (discussed below). As we shall see, the model also allows parametric control of the flow of carbon from the atmospheric stock to that dissolved in the oceans, another stock.
 +
 +
The atmospheric carbon stocks have important forward linkages. One of the most important, temperature change, can be tracked via '''WTEMP''', the global average annual temperature in degrees centigrade. A derivative temperature variable but at the country level, '''ENVTPCHG''', captures the average annual temperature change from the year 1990, and '''ENVPRCHG''' similarly tracks the change in precipitation. These have further forward linkages to agriculture.
 +
 +
Several variables in the model measure the configuration of the world’s land area. Two variables capture trends in forest coverage: '''WFORST '''is an aggregate measure of the world’s land area covered by forest, reported in millions of hectares; and the land variable '''LD '''is disaggregated by land type, enabling country- or region-level displays of the following categories: crop, grazing, forest, urban and other. (See the [[#_Agriculture_Module|agricultural module]] for a complete discussion of land use variables and parameters). Land use links back to the carbon representation because trees and other plants making up the world’s forests absorb carbon dioxide through photosynthesis and their carbon content is still another important global stock. As indicated above, change in forest area, such as clearing of land for agricultural use, generates one of the carbon flow terms of the model.
 +
 +
The environment submodule includes water indicators. The annual use of freshwater resources is reported in cubic centimeters via '''WATUSE, '''tied in IFs to the major source of water use, agricultural production. Users can additionally choose to explore water use per capita, expressed in thousands of cubic meters, via the variable '''WATUSEPC'''. Currently, the model’s treatment of water does not feature the stock and flow elements seen in the carbon cycle. Although '''WATUSE '''is a flow of water used each year, no corresponding variable captures the total stock of water—say in nonrenewable (or at least very slowly recharging) fossil water aquifers. This is a shortcoming that we hope to address in the near future. However, a parameter, '''watres '''(see the discussion below), does provide an estimate of the level of annually renewable water resources in countries and regions. The ratio of use to renewable resources serves as a measure of relative water stress. With respect to forward linkages, water stress is one of the drivers of state fragility (see the [[#_Governance_Module|government module]]).
 +
 +
A final set of environmental indicators pertains to air pollution. The amount of solid matter suspended in the Earth’s atmosphere serves as a measure of relative air quality; high levels of atmospheric particulate matter (PM) can have adverse effects on human health. Depending on the data source, PM concentration readings may include particles that are either 10 or 2.5 micrometers in diameter. In the model, the variable'''ENVPM2PT5''' captures levels of fine particulate matter, PM2.5, found in residential areas (although our current data source is actually for 10 micrometer particulates). The prevalence of solid fuel use is a second indicator of air pollution. The variable '''ENSOLFUEL''' captures the percent of a population relying on solid fuel as the primary source of domestic energy. Burning solid fuel, such as wood, peat, coal, dung, and certain grains, produces a toxic environment indoors (see the [[#_The_Social_Accounting|infrastructure module]]).
 +
 +
Alternative scenarios, built in any IFs module, are likely to have bearing on environmental indicators. Users exploring the consequences of scenario interventions in economics, energy or agriculture are likely to see the greatest environmental effects. Interventions in other modules will still affect the environment, though through weaker, more distal, drivers. The environmental sub-module, however, allows users to directly explore the effects of environmental change. Environmental parameters can be categorized as those that affect carbon stocks and flows, land use, water resources, and air quality.
  
 
== <span style="font-size:x-large;">Parameters&nbsp;Affecting Carbon</span> ==
 
== <span style="font-size:x-large;">Parameters&nbsp;Affecting Carbon</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="632" style="width:632px;"
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''enpm'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Energy production by type
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''endemm'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
ENDEM, WEP
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Energy demand multiplier
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''carbtax'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
ENP, CARANN
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Carbon tax
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Exogenous Specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''qem'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Capital-output ratio multiplier
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''resorm'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
RESOR
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Resource multiplier
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''enrgdpgr'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Energy efficiency
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''carfuel1'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
CARANN
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Carbon generated by gas
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''carfuel2'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
CARANN
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Carbon generated by natural gas
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''carfuel3'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
CARANN
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Carbon generated by coal
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''envclimsens'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
CO2PPM, WTEMP
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Time sensitivity of global temperature to carbon dioxide
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Limit
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''carabr'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
CO2PPM, WTEMP
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Carbon absorbed by oceans
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''carabrchng'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
CO2PPM, WTEMP
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
annual change in this absorption rate of carbon by oceans
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''envco2fert'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
AGP
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Crop sensitivity to environmental change
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''envylchgadd'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
ENVYLDCHNG
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Agricultural yield change
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''envylchgm'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
ENVYLDCHNG
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Agricultural yield change
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Multiplicative
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
There is no way to directly target atmospheric carbon stocks in the model. Instead, points of intervention involve flows, the most important of which is the burning of fossil fuels and therefore the rate of flow of carbon from its stock in those fuels to the stock in the atmosphere With respect to fossil fuel use, there are leverage points on both the production and consumption side—see the [[#_Energy_1|energy model]] discussion. '''Enpm''', the energy production multiplier, will alter the flow of carbon into the atmosphere and can serve as a powerful leverage point in energy-driven environmental scenarios. Users can alter the mix of energy types produced within a country, thereby reducing or increasing the use of fossil fuels, and trace the environmental effects.
 +
 +
On the demand side, a reduction in '''endemm''', the energy demand multiplier, can likewise simulate conservation/efficiency enhancement programs that alter the flow of carbon into the atmosphere. It is important to note that reductions in energy use triggered by '''endemm''' are free; that is to say, they are not accompanied in the model by economic costs. In reality, conservation or efficiency efforts occasionally do reduce energy use without a large cost—as evidenced by voluntary behavioral shifts on the part of citizens, or regulations enforced by the government. However, because it may be unrealistic to assume costless energy demand changes, users may wish to include financial considerations in their scenarios. The parameter '''carbtax '''simulates a reduction in demand triggered by tax; users would pay an additional fee on fossil fuels proportional to carbon content. This would encourage conservation or a transition to less expensive forms of energy. Users experimenting with carbon taxes should observe the effects on the energy production system '''(ENP)''', the level of annual carbon emissions '''(CARANN'''), world temperature ('''WTEMP''') and the level of economic output ('''GDP)'''.
 +
 +
Users can also simulate government interventions designed to encourage research and development focused on renewable energy or energy efficiency. Each energy type’s cost profile is linked to a capital-output ratio multiplier, '''qem'''. Users can simulate a decrease in the cost of renewables by reducing the multiplier’s initial value from 1.0 to 0.8—this would reduce all production costs by 20 percent (on top of whatever cost changes the model endogenously computes). Energy prices can also be indirectly controlled by changes to natural resources needed to produce fossil fuels. As oil and gas resources are exploited, the remainder becomes more expensive to extract. Users can use '''resorm''' to enforce alternative assumptions about the scale of ultimate resources available for discovery, and eventually, production. Mechanisms involving resources, reserves, and energy price operate over a long time horizon. Any scenario using '''resorm''' should be run out to at least the year 2050 in order to display significant forward linkages.
 +
 +
Changes in the efficiency of energy use from oil and gas sources would have bearing on carbon emissions as well. Changes in energy efficiency are controlled by the growth rate parameter '''enrgdpgr '''in addition or instead of the use of '''endemm. '''Changes to this parameter simulate the impact of successful research and development programs in the public or private sphere. Three parameters offer an additional way to simulate improvements to energy efficiency: '''carfuel1, carfuel2 '''and '''carfuel3 '''set, respectively, the amount of carbon emitted by burning oil, natural gas and coal. Normally these should be considered physical constants and not changed, but the model does not contain a representation of carbon sequestration and '''carfuel3''' could be used to represent its impact, although not its cost. For a complete discussion on parameters pertaining to energy production see the [[#_Energy_Module|energy section]].
 +
 +
Returning to the issue of stock-to-stock flows of carbon, so far we have focused only on the movement of carbon from fossil fuels to the atmosphere. Not all carbon emitted into the atmosphere remains there, and the model contains parameters to control the absorption of atmospheric carbon by the oceans. Two parameters control this process in the model. The first is '''carabr''', an exogenous specification of the billion tons of carbon that annually moves to or is absorbed by the oceans. The second is '''carabrchng''', which sets the annual change in the absorption rate (a measure of flow). At this point the parameter is not functional, and the user should be aware that change in it will have no effect. The final stock-to-stock flow represented in the model is between the atmosphere and forests (to be discussed below). Because the model does not explicitly represent the flow between the atmosphere and other non-forest vegetation (or organic matter in the soil), users with interest in this area could turn to the parameter '''carabr''' to implicitly capture, not just absorption into oceans, but into other matter as well.
 +
 +
Turning to forward linkages, future trends in the carbon system will affect the world’s agricultural sector. The stock of atmospheric carbon dioxide ('''CO2PPM''') and the related level of global temperature ('''WTEMP''') are the variables that transmit the carbon system's effects. The model represents two major paths of impact, one related to each variable. The first path is the so-called carbon-fertilization effect. Because plants need carbon, an increase in '''CO2PPM''' can actually increase agricultural yields, and the parameter that controls that is '''envco2fert''', crop sensitivity to atmospheric carbon dioxide. A value of zero would turn off this linkage.
 +
 +
The second path is from global temperature ('''WTEMP''') to country-specific temperature and precipitation changes ('''ENVTPCHG '''and'''ENVPRCHG) '''and then to agricultural yield. The translation in the model of changes in global temperature to changes in country-specific temperature and precipitation uses information from climate-specific models and is not subject to parametric control by users (in modeling terminology, they are “hard-coded” within the model). The user can, however, affect the further impact of country-specific values to yield. While the model's formulation for that impact ('''ENVYLCHNG''') on yield is quite complex, two parameters exist for influencing it, the multiplicative parameter '''envylchgadd '''and the additive parameter '''envylchgm. '''Their effects are sequential, so it is best that the user rely on one or the other, not both.
 +
 +
One additional parameter is important in this consideration of forward linkages, namely that which controls the translation of atmospheric carbon levels ('''CO2PPM)''' into global temperature ('''WTEMP'''). That parameter is '''envclimsens''', the time sensitivity of global temperature to carbon dioxide. The very large-scale global circulation models of climate change struggle to make the connection between these two variables and IFs uses this simple parametric linkage to summarize some of what we have learned from them. But the relationship is uncertain, so a scenario that would raise or lower the parameter and the impact on global temperature might be of interest. Moreover, the impact of carbon on temperature is likely to be one that involves lags (increasing temperature slowly even at a given fixed level of raised carbon dioxide), so one could consider a dynamic value of the parameter over time in order to capture that.
 +
 +
==== '''Land Use''' ====
 +
 +
{| border="1" cellspacing="1" cellpadding="1" width="632" style="width:632px;"
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''forestm'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
WFOREST
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
World forest multiplier
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''tgrld'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
WFOREST, LD
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Land growth by type
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Initial condition
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:22px;" |
 +
'''carforst'''
 +
 +
| nowrap="nowrap" style="width:129px;height:22px;" |
 +
CO2PPM
 +
 +
| nowrap="nowrap" style="width:283px;height:22px;" |
 +
Level of carbon sequestered by forests
 +
 +
| nowrap="nowrap" style="width:121px;height:22px;" |
 +
Coefficient
 +
 +
|}
 +
 +
The importance of land extends beyond its role in carbon cycle. We are interested in forest area, for instance, due to its involvement in species preservation, in water cycle control, and for its own intrinsic value. A direct multiplier, '''forestm''', imposes an increase or a decrease on a country’s forest area. Any change in land area is constrained by a country’s geographic size because an increase in forest area requires a corresponding decrease in the land available for other types of use, such as crop production. As another way to affect land use, the parameter '''tgrld''' sets an initial target for annual growth in cropland. This second parameter achieves a change in land devoted to crops primarily as a trade off with forest area. For a complete discussion of parameters concerning patterns of land use, see the [[#_Agriculture_Module|agricultural section]]. Changes in land use will, of course, have secondary consequences visible in '''GDP''', '''AGP''', '''AGX''', and '''AGM''', among other variables
 +
 +
Returning to the role of forests in the carbon cycle, the key parameter is the amount of carbon sequestered by each million hectares of the earth’s forests, '''carforst'''. By default, this coefficient is set to 0.12—meaning that every million hectares of forest sequesters 0.12 billion tons of carbon. By increasing or decreasing the value, users can explore futures in which forests are more or less effective at removing carbon from the atmosphere.
  
 
== <span style="font-size:x-large;">Parameters Affecting Water Resources</span> ==
 
== <span style="font-size:x-large;">Parameters Affecting Water Resources</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="626" style="width:626px;"
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''watres'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
Unknown
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Renewable water resources
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''tgrld'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
AGP
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Land growth by type
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Initial condition
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''ylm'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
YL
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Agricultural yield multiplier
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|}
 +
 +
Currently, only one parameter in the model is directly linked to water variables. '''Watres '''allows users to set the renewable resources located in each of the countries in IFs. Changes to this parameter or exogenous variable (we would like it at some point to be a variable) can either be instantaneous or gradual, as specified by the user. Though each country’s renewable water resources, and associated water stress, has bearing on state fragility, it is important to note that the '''watres '''parameter does not constrain water use. As mentioned in the discussion above, modeling work is currently envisioned to create a dynamic water system.
 +
 +
Users can, however, affect water use via deeper drivers. Any increase (or decrease) in crop land, and subsequent increases (or decreases) in production, will require a corresponding change in water usage ('''WATUSE'''). Water usage per capita is linked to crop production per capita by a function in the model (Crop Production/Capita Versus Water Use/Capita). Thus, changing that function or manipulating the land growth by type parameter, '''tgrld''', can trigger patterns of water uses differing from those featured in the Base Case. The yield multiplier '''ylm''' provides a very direct method of indirect water use modification; increases in production will require more water, often (implicitly in the model) through irrigation.
  
 
== <span style="font-size:x-large;">Parameters Affecting Air Pollution</span> ==
 
== <span style="font-size:x-large;">Parameters Affecting Air Pollution</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="626" style="width:626px;"
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''envpm2pt5m'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENVPM2PT5
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
PM2.5 levels multiplier
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''ensolfuelm'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Solid fuel use multiplier
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''ensolfuelsetar'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Solid fuel use SE target
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''ensolfuelseyrtar'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Solid fuel use SE target
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''ensolfueltrgtval'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENSOL FUEL
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Solid fuel elimination target
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Target
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''ensolfueltrgtyr'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Solid fuel elimination target
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Target
 +
 +
|-
 +
| nowrap="nowrap" style="width:122px;height:22px;" |
 +
'''hlsolfuelsw'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
DEATHCAT
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Relationship between solid fuel and respiratory diseases
 +
 +
| nowrap="nowrap" style="width:96px;height:22px;" |
 +
Switch
 +
 +
|}
 +
 +
<span style="font-size:x-large;"></span>Several environmental parameters allow users to directly manipulate levels of air pollution. Fine grain aerial particulate matter levels in residential areas ('''ENVPM2PT5''') are controlled by a multiplicative parameter, '''envpm2pt5m'''. Like any multiplier, assigning higher or lower values will result in a proportional change in the associated variable—in this case '''ENVPM2PT5'''. As an alternative, users can explore variations of solid fuel use in a specific country, region, or the world as a whole. The percentage of a population using solid fuel as their primary source of electricity ('''ENSOLFUEL)''' is connected to a multiplier, '''ensolfuelm'''. The model also features a pair of standard error target parameters: one that establishes the target, '''ensolfuelsetar''', and one that establishes the year by which the target will be reached, '''ensolfuelseyrtar'''. Users can alternatively (not simultaneously) utilize a second pair of parameters to set a year by which solid fuel use will be either reduced, or eliminated completely. '''Ensolfueltrgtval''' sets the desired reduction, and '''ensolfueltrgtyr''' sets the target year. Finally, and related to forward linkages, users can control whether there is a relationship between the burning of solid fuel and health. When the switch parameter '''hlsolfuelsw''' is set to 1 (the default), a positive relationship between solid fuel use and respiratory disease is active; when the switch is set to 0, the relationship is deactivated.
  
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 +
<span style="font-size:x-large;"></span>
 +
Exploring an alternative scenario conceptualized by the Netherlands Environmental Assessment Agency (PBL) can give users a quick overview of some of the powerful leverage points in the environment module. Using their integrated assessment model, called IMAGE, PBL constructed a set of forecasts representing a future in which carbon emissions drop dramatically. A replication of this scenario comes pre-packaged with the IFs installation, in the World Integrated Scenario Sets folder and the NCAR IPCC subfolder, under the title IMAGE_hirenew_lowcarbon. The folder contains, in total, five scenarios, all of which were developed during the course of a joint project between the Pardee Center and the National Center for Atmospheric Research (NCAR), which is located in Boulder, Colorado. Each alternative scenario uses IFs parameters to approximate work done by another integrated assessment model: BPL’s Integrated Model to Assess the Global Environment (IMAGE), Asia-Pacific Environment Innovation Strategy’s AIM, the International Atomic Energy Agency’s MESSAGE, and Pacific Northwest National Laboratory’s Mini-Climate Assessment Model, or MiniCAM,
  
 +
In order to simulate a significant reduction in global carbon emissions, the IMAGE_hirenew_lowcarbon scenario includes interventions in capital-output ratio, fossil fuel burning behavior, and carbon tax policy. For oil, gas, coal and nuclear production in every country, the parameter '''qem '''is set to rise steadily, reaching a value of four by mid-century and remaining there until 2100. Conversely, the capital cost of each unit of renewable energy produced in the world is set to decline, with '''qem''' approaching 0.3, and remaining at that value until 2100. As fossil fuel production becomes expensive and green energy becomes relatively cheaper, price signals will push global energy producers to reduce carbon emissions. The use of the '''carbtax''' parameter augments the economic incentives attached to renewables in the scenario. By 2100 a carbon tax of 400 billion U.S. dollars is in place in every country in the world. Finally, the scenario adds an element of environmentally friendly technological change, through a reduction in the parameters '''carfuel1''', '''carfuel2''', and '''carfuel3'''. This would simulate worldwide discoveries allowing for the cleaner burning of oil, natural gas, and coal.
 +
<span style="font-size:x-large;"></span>
 
= <span style="font-size:xx-large;">Governance Module</span> =
 
= <span style="font-size:xx-large;">Governance Module</span> =
  
 
== <span style="font-size:x-large;">Variables of Interest</span> ==
 
== <span style="font-size:x-large;">Variables of Interest</span> ==
 +
 +
{| border="1" cellspacing="1" cellpadding="1" style="width:500px;"
 +
|-
 +
| '''Variable Name'''
 +
| '''Description'''
 +
|-
 +
| '''GOVINDSECUR'''<br/>
 +
| Governance security index<br/>
 +
|-
 +
| '''GOVINDCAPAC'''<br/>
 +
| Governance capacity index<br/>
 +
|-
 +
| '''GOVINDINCLUS'''<br/>
 +
| Government inclusiveness index<br/>
 +
|-
 +
| '''GOVINDTOTAL'''<br/>
 +
| Total governance index<br/>
 +
|-
 +
| '''SFINTLWARALL'''<br/>
 +
| Internal war, event occurrence<br/>
 +
|-
 +
| '''SFINTLWARMAG'''<br/>
 +
| Internal war, magnitude<br/>
 +
|-
 +
| '''GOVRISK'''<br/>
 +
| Government risk index<br/>
 +
|-
 +
| '''GOVREV'''<br/>
 +
| Government revenues<br/>
 +
|-
 +
| '''AID'''<br/>
 +
| Foreign Aid<br/>
 +
|-
 +
| '''GOVCORRUPT'''<br/>
 +
| Government Corruption<br/>
 +
|-
 +
| '''REGQUALITY'''<br/>
 +
| Regulatory quality<br/>
 +
|-
 +
| '''ECONFREE'''<br/>
 +
| Economic freedom measure<br/>
 +
|-
 +
| '''GOVEFFECT'''<br/>
 +
| Government effectiveness<br/>
 +
|-
 +
| '''DEMOCPOLITY'''<br/>
 +
| Level of democracy<br/>
 +
|-
 +
| '''FREEDOM'''<br/>
 +
| Freedom measure<br/>
 +
|-
 +
| '''GEM'''<br/>
 +
| Gender empowerment measure<br/>
 +
|}
 +
 +
The IFs governance module contributes to a growing body of work dedicated to quantifying the performance of governments around the world. The IFs model adds to that literature especially by facilitating forecasting and scenario analysis. The module represents governance as a composite system, made up of three interconnected dimensions: security, capacity and inclusiveness. The modelling process builds on a large number of data series and governance indices constructed by various research groups, mostly in academia, non-profit organizations, and international organizations. Variables capturing regulatory quality and government effectiveness, for example, come from the World Bank’s World Governance Indicator project; Freedom House and Transparency International provide measures of economic freedom and corruption; and the Center for Systemic Peace provides state fragility and democracy indicators. Based on such data and series, the IFs system builds up to aggregate indices for its three dimensions of governance: '''GOVINDSECUR '''for security, '''GOVINDCAPAC '''for capacity, and '''GOVINDINCLUS '''for inclusivity. These three indices are then combined into an overall governance index,'''GOVINDTOTAL.'''
 +
 +
The building blocks of the three indices, however, are sub dimensions and component variables. Security’s sub-dimensions are the probability of intrastate conflict ('''SFINTLWARALL''') and a general level of government performance with associated risk of instability ('''GOVRISK'''). Although not used in the security index, '''SFINTLWARMAG''' supplements '''SFINTLWARALL''' by forecasting the average magnitude of internal conflict.
 +
 +
Forecasts of intrastate war probability ('''SFINTLWARALL''') are heavily path dependent, driven by a moving average of countries’ past experiences with violence. Over time, however, other factors—infant mortality, level of democracy, economic growth rate, and trade openness, among others—affect the probability of conflict as well. IFs uses an index, '''GOVRISK''', to measure the second sub-dimension of security, government performance and associated risk. For the 186 countries included in the model, the overall index value ranges roughly from 15 to 60, with a higher number signifying increased levels of risk. Low risk countries such as Sweden will generally fall at the bottom of the range, while high risk ones such as Somalia will be at the top. Like the probability of war, each country’s performance risk profile is driven by an array of factors across demographic, environmental, economic, health and education subsystems. A comprehensive look at each country’s performance and risk profile is available through Specialized Display under the option Performance Risk Evaluation. The display includes raw values and a global ranking, for each of the index’s nine components. Weighting and relative risk levels associated with each component are also listed.
 +
 +
The sub-dimensions of the second dimension of governance, capacity, are government revenue and government quality. Each country’s ability to raise revenue is captured by a simple ratio of '''GOVREV '''to'''GDP'''—net of foreign aid ('''AID''') received by governments, which the index does not include. The more revenue a government is able to raise relative to GDP, the higher the capacity score will be—for a discussion of the equilibrating processes used to calculate government revenue, expenditure and transfer payments see the [[#_The_Economic_Module|economic module]]. Governance quality, capacity’s second sub-dimension, is represented by corruption. In the model, '''GOVCORRUPT''' measures relative levels of political corruption, with 0 representing extremely corrupt practices, and 10 representing extreme transparency, or lack of corruption. Indices tracking regulatory quality ('''REGQUALITY)''', economic freedom ('''ECONFREE)''', and government effectiveness ('''GOVEFFECT)''' offer alternative formulations of governance quality. Although the '''GOVCORRUPT''' score is the only element used to generate the composite index '''GOVINDCAP''', the other indicators link forward to economic and infrastructure development processes.
 +
 +
The third dimension of governance, inclusiveness, is made up of the level of formal democratization and an element that measures gender empowerment in society. The '''DEMOCPOLITY '''index represents the strength of democratic institutions; in IFs, values range from 0 to 20, higher numbers signifying greater levels of democracy. In forecast years, several factors—the age structure of society, dependence on raw materials, energy exports and energy price—determine the strength of democracy. The model uses the gender empowerment measure ('''GEM''') as another index of inclusiveness. The measure takes its historical values—and its name—from the United Nations Development Program’s Gender Empowerment Measure. Forecasts of gender empowerment are driven by a country’s youth population size, GDP per capita at purchasing power parity, and years of formal education attained by female adults. The index '''FREEDOM''', created by Freedom House, offers a final formulation of civil participation in society. This measure is not used to generate the aggregate inclusiveness index, but it links forward to the social capital component of multifactor productivity.
 +
 +
While the three dimensions represent distinct facets of governance, they are tightly interrelated. Indeed, the drivers of security, capacity and inclusion often overlap. For example, gender empowerment, a sub-dimension of inclusion, drives security’s vulnerability to conflict index and capacity’s corruption index. And the three composite indices—'''GOVINDSECUR, GOVINDCAPAC '''and'''GOVINDINCLUS'''—interact bi-directionally with each other. Beyond the sub-module, strong relationships link the key governance indices and other measures of human well-being, represented by GDP per capita and the Human Development Index (HDI). For instance, economic freedom ('''ECONFREE''') links forward to multifactor productivity ('''MFP''') and thus on to broader economic growth. And conversely, other systems affect governance forecasts, as evidenced by the relationship between levels of per capita income and '''HDI''' and '''DEMOCPOLITY'''—higher levels of well-being lead to increased pressure for democracy.
 +
 +
The tri-part conceptualization of governance originated in the Pardee Center’s analysis of historical trends, as discussed in ''Potential Patterns of Human Progress'': ''Strengthening Governance Globally (''Hughes et al. (2014)). Over time, the story of governance has unfolded differently in countries across the world—some countries have developed security, capacity and inclusiveness sequentially, and some countries have developed all three dimensions simultaneously. A suite of parameters attached to the sub-dimensions of each dimension allows users to explore a range of potential patterns of global governance.
  
 
== <span style="font-size:x-large;">Parameters to Affect Security</span> ==
 
== <span style="font-size:x-large;">Parameters to Affect Security</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="601" style="width:601px;"
 +
|-
 +
| nowrap="nowrap" style="width:85px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:108px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:85px;height:22px;" |
 +
'''sfintlwaradd'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
SFINTLWAR
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
State failure/internal war addition
 +
 +
| nowrap="nowrap" style="width:108px;height:22px;" |
 +
Additive
 +
 +
|-
 +
| nowrap="nowrap" style="width:85px;height:22px;" |
 +
'''sfconv'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
SFINTLWAR
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
State failure convergence
 +
 +
| nowrap="nowrap" style="width:108px;height:22px;" |
 +
Convergence speed (years)
 +
 +
|-
 +
| nowrap="nowrap" style="width:85px;height:22px;" |
 +
'''sfmassrep'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
SFINTLWAR
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Mass repression factor
 +
 +
| nowrap="nowrap" style="width:108px;height:22px;" |
 +
Additive
 +
 +
|-
 +
| nowrap="nowrap" style="width:85px;height:22px;" |
 +
'''wpextinterv'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
SFINTLWAR
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
External intervention factor
 +
 +
| nowrap="nowrap" style="width:108px;height:22px;" |
 +
Additive
 +
 +
|-
 +
| nowrap="nowrap" style="width:85px;height:22px;" |
 +
'''govriskm'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
GOVRISK
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Government risk multiplier
 +
 +
| nowrap="nowrap" style="width:108px;height:22px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:85px;height:22px;" |
 +
'''govriskweight'''
 +
 +
| nowrap="nowrap" style="width:103px;height:22px;" |
 +
GOVRISK
 +
 +
| nowrap="nowrap" style="width:305px;height:22px;" |
 +
Government risk weight
 +
 +
| nowrap="nowrap" style="width:108px;height:22px;" |
 +
Weight
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
The most direct way in which to change the probability of internal war, and thus its broader consequences, is to manipulate the additive parameter affecting the variable, '''sfintlwaradd'''. Other parameters connected to internal war and the country performance risk evaluation allow users to explore alternate scenarios around security. Over time, a country’s probability of internal war will converge to the model’s expected function, a function driven by demographic and economic factors. However, users can control the speed of convergence through the parameter '''sfconv'''—accelerating this convergence would be an effective way to improve the fortunes of countries with especially bad histories of intrastate violence, because path dependency is a driver of internal war probability. Though set to 0.0 in the Base Case, two additional parameters exist that can directly affect the likelihood of internal war. '''Wpextinterv '''is a parameter that, when activated, simulates a conflict-creating external intervention; when the parameter is set to 1.0 the probability of intrastate conflict rises to 1.0 also. Another parameter, '''sfmassrep''', works in a similar way but with a reverse valence. Assigning it a value other than 0.0 simulates a campaign of mass repression by the central government that lowers the probability of overt intra-state violence.
 +
 +
Turning to government performance and risk evaluation, the multiplier '''govriskm '''directly controls the overall risk index, '''GOVRISK'''. Changes to the risk profile link forward to the higher order '''GOVINDVSECUR''' index, which in turn links to the overall governance score captured in '''GOVINDTOTAL'''. Users can also experiment with different risk configurations of a country or region via '''govriskweight'''; as the name implies, this parameter sets the weighting of '''GOVRISK'''’s component parts. As a final option, users can tailor their interventions to the components’ values, rather than simply the weighting. Any of the government risk index’s determining factors can be manipulated. The list of potential intervention targets includes: [[#_Variables_of_Interest_1|youth bulge]], [[#_Variables_of_Interest_2|the ratio of water use to renewable resources]], [[#_Variables_of_Interest_2|climate change]], [[#_Variables_of_Interest_3|resource export dependence]], [[#_Variables_of_Interest_4|rate of per capita GDP growth]], [[#_Variables_of_Interest|infant mortality]], [[#_Variables_of_Interest_1|life expectancy]], [[#_Variables_of_Interest|malnutrition]], [[#_HIV/AIDS_Submodule_1|HIV prevalence rate]], [[#_Education|primary net enrolment]] and [[#_Variables_of_Interest_5|adult education years]]. Scenario interventions could target one of these elements or several, cutting across IFs modules.
  
 
== <span style="font-size:x-large;">Parameters to Affect Capacity</span> ==
 
== <span style="font-size:x-large;">Parameters to Affect Capacity</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="618" style="width:618px;"
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''govrevm'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Government Revenue Multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''firmtaxrm'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Firm tax multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''hhtaxrm'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Household tax rate multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''ssweltaxrm'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Social Security multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''indirecttaxrm'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Indirect tax multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''govcorruptm'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVCORRUPT
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Corruption Multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''govcorruptsetar'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVCORRUPT
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Corruption target
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''govcorruptseyrtar'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVCORRUPT
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Corruption target
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''goveffectm'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVEFFECT
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Effectiveness multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''goveffectsetar'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVEFFECT
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Effectiveness target
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''goveffectseyrtar'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
GOVEFFECT
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Effectiveness target
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''govregqualm'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
REGQUALITY
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Regulatory quality multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''govregqualsetar'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
REGQUALITY
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Regulatory quality target
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''govregqualseyrtar'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
REGQUALITY
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Regulatory quality target
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:130px;height:22px;" |
 +
'''econfreem'''
 +
 +
| nowrap="nowrap" style="width:110px;height:22px;" |
 +
ECONFREE
 +
 +
| nowrap="nowrap" style="width:240px;height:22px;" |
 +
Economic freedom multiplier
 +
 +
| nowrap="nowrap" style="width:138px;height:22px;" |
 +
Multiplier
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
The governance module includes parameters connected to both sub-dimensions of capacity: government revenue and government effectiveness. '''Govrevm''' is a direct multiplier of government revenue, '''GOVREV'''; assigning values to this parameter would signify either growing or diminishing government capacity to gather revenue. However, various, more nuanced, government revenue collecting programs can be simulated via several taxation parameters. The module includes multipliers to the tax rate paid by firms ('''firmtaxrm''') and households ('''hhtaxrm'''), taxes paid on social security ('''ssweltaxrm''') and indirect taxes such as sales tax or value added tax ('''indirecttaxrm'''). For a full discussion of government revenue interventions see the [[#_The_Economic_Module|economic module]] discussion.
 +
 +
Each of the components of government effectiveness represents a potential target for scenario intervention. The variable '''GOVCORRUPT''', measuring corruption levels, is connected to a multiplicative parameter, '''govcorruptm'''. Although corruption is the only representation of effectiveness tied to the '''GOVINDCAPAC''', users may wish to explore the consequences of changes to other measures. Multipliers '''govregqualm '''and'''econfreem''' directly control the level of a country’s regulatory quality ('''REGQUALITY''') and economic freedom ('''ECONFREE'''). Increases to regulatory quality link forward to broadband connectivity and other information and communication technology (ICT) indicators; and changes in economic freedom affect multifactor productivity through social capital. Finally, users can manipulate the '''GOVEFFECT''' variable, a formulation of effectiveness taken from the World Bank’s World Governance Indicators project. '''Goveffectm '''is a straightforward multiplier, with assigned values acting to scale effectiveness up or down.
 +
 +
&nbsp;Users can alternatively choose to manipulate governance quality indicators via standard error targeting. Two parameters are linked to each corruption, regulatory quality and effectiveness. The first parameter sets the target increase or decrease in the index, expressed in standard errors away from the expected function, and the second parameter sets the number of years that will pass before the target is reached. These parameters are '''govcorruptsetar '''and '''govcorruptseyrtar '''for corruption, '''govregqualsetar '''and '''govreqqualseyrtar''' for regulatory quality, and'''goveffectsetar''' and'''goveffectseyrtar '''for government effectiveness.
  
 
== <span style="font-size:x-large;">Parameters to Affect Inclusiveness</span> ==
 
== <span style="font-size:x-large;">Parameters to Affect Inclusiveness</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="632" style="width:632px;"
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''democm'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
DEMOCPOLITY
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Democracy multiplier
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''swseffects'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
DEMOCPOLITY
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Swing state effect
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''democimpus'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
DEMOCPOLITY
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Democracy impetus by leading power
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''democimpoth'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
DEMOCPOLITY
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Democracy impetus by other powers
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''democwvlen'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
DEMOCPOLITY
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Democracy wave length
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Limit
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''democwvmax'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
DEMOCPOLITY
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Democracy wave upper limit
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Limit
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''democpolitysetar'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
DEMOCPOLITY
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Democracy SE target
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''democpolityseyrtar'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
DEMOCPOLITY
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Democracy SE year
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''freedomm'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
FREEDOM
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Freedom multiplier
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''gemm'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
GEM
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Gender empowerment multiplier
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''gemsetar'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
GEM
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Gender empowerment target
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:141px;height:22px;" |
 +
'''gemseyrtar'''
 +
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
GEM
 +
 +
| nowrap="nowrap" style="width:228px;height:22px;" |
 +
Gender empowerment year target
 +
 +
| nowrap="nowrap" style="width:145px;height:22px;" |
 +
Standard error target
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
The two sub-dimensions of government inclusiveness are democracy and gender empowerment. Users wishing to explore alternative scenarios around levels of democracy can choose from an array of leverage points. First, the multiplier '''democm''' allows direct manipulation of the variable '''DEMOCPOLITY''' for a country or region. Users choosing this brute force method should direct their attention to linkages in multifactor productivity, state fragility, and the overall '''GOVINDINCLUS''' index. Scenario interventions could also target any of the deeper drivers of democracy. In the model, forecasts of democracy levels are a function of gender empowerment, the youth bulge, dependency on raw material exports and energy prices. Two other parameters—disabled in the base case—can affect '''DEMOCPOLITY'''. The first simulates a neighborhood affect: if '''swseffects''' is set to a value of 1, swing states in a geographic region will be pressured to conform to their neighbors’ democratic practices—or lack thereof. The second additional method is rather complicated and will not be of interest to most users. The variable '''DEMOCWAVE''' either adds to or subtracts from the democracy levels determined by the model, simulating a wider neighborhood, in fact global, effect known as a wave of democracy. The magnitude of upswings or downswings is specified exogenously through several parameters: '''democimpus, '''the impetus provided to democracy by the leading power; '''democimpoth''', the impetus provided to democracy by other powers; '''democwvlen''', the wave of democracy’s duration in years; and, '''democwvmax''', the maximum rise in democracy levels. When a democracy wave is active, two variables track the process: '''DEMOCWVCOUNT''' measures the duration of the wave’s run and recession, and '''DEMOCWVDIR '''contains the direction of the wave, whether it supports or hinders the consolidation of democracy. As an alternative to other types of intervention, users may override the polity function through the use of external targeting. '''Democpolitysetar '''specifies a standard error target, and '''democpolityseyrtar''' specifies the year in which this target will be achieved.
 +
 +
&nbsp;The degree of civilian participation – on the part of all citizens – is another driver of inclusiveness. Whereas the polity measure of democracy ('''DEMOCPOLITY''') measures formal, electoral inclusion, the variable '''FREEDOM '''is a more comprehensive measure of civil participation. '''FREEDOM''' is computed from levels of GDP and general educational attainment—among both men and women; and like the other elements inclusion, it is linked to a brute force multiplier, '''freedomm'''. Unlike the other parameters, however, standard error targeting is not available for the civil society freedom variable.
 +
 +
The second dimension of government inclusiveness, gender empowerment, offers a final target for scenario analysis. The three primary drivers of the gender empowerment measure ('''GEM''') are youth bulge size, GDP per capita at purchasing power parity, and years of formal education obtained by females over age fifteen. Users can build alternate scenarios around a combination of driving factors, or, more directly, through a multiplicative parameter. The multiplier '''gemm '''allows users to directly control the progression/regression of gender empowerment in a country or region. Additional parameters control standard error targeting around '''GEM''': used together, '''gemsetar '''and'''gemseyrtar '''establish a target value, measured in distance from the expected, cross-sectional function, and the time required to reach the target.
  
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 +
<span style="font-size:x-large;"></span>
 +
An installation of IFs includes scenarios used in each entry in the Pardee Center’s Potential Patterns of Human Progress (PPHP) series. Scenarios created for the governance volume include: a high conflict scenario; a scenario representing challenges to the world’s governments; a set of scenarios that speed up economic growth via multifactor productivity; and, finally, a set of government strengthening scenarios. This section will briefly describe the parameter interventions used to construct several of the enhanced government scenarios, located in the folder Strengthened Governance.
  
 +
The collection of governance scenarios includes one scenario for each of the three dimensions: Strengthened Security, Strengthened Capacity SE1 and Strengthened Inclusiveness SE1. Each scenario includes a single parameter shift that targets one sub-dimension of security, capacity, or inclusion. Users wishing to load the three interventions simultaneously can select the combined scenario, Strengthened Governance SE1. The boost to capacity operates through '''govrevm''', the multiplier tied to the revenue sub-dimension of capacity; the parameter is set to 1.1 for the majority of the forecast horizon, raising revenue collection each year. The intervention in inclusion targets the democracy sub-dimension. For the entire forecast horizon, from 2010 to 2100, '''democpolitysetar''' is set to 1, establishing an improvement target in democracy levels of one standard error. As the corresponding year parameter, '''democpolityseyrtar''', is not changed, it takes on its default value of 10.0. This means that the target of one standard error will be reached in 10 years. The final intervention simulates a decline in intra-state violence the world over. The additive factor '''sfintlwaradd''' interpolates from 0 to -1 over thirty years; after reaching negative 1, it remains at that value through 2100.
 +
 +
The final scenario in the governance set, Strengthened Policies, features interventions to deeper drivers of each governance dimension, including: educational improvements at primary, lower secondary, upper secondary and tertiary schooling levels; reductions in childhood malnutrition; increased government transfers and international development assistance; steady decline in total fertility rates across western, central and eastern Africa as well as Oceania; rising agricultural yields; less solid fuel use, and a corresponding reduction in atmospheric particulate matter.
 +
 +
The two comprehensive scenarios contained in the PPHP Governance folder represent distinct methods of alternative forecast analysis. Strengthened Governance SE1 explores the effects of directly manipulating governance indicators. Strengthened Policies, on the other hand, explores the forward linkages of governance drivers.
 +
<span style="font-size:x-large;"></span>
 
= <span style="font-size:xx-large;">International Politics Module</span> =
 
= <span style="font-size:xx-large;">International Politics Module</span> =
  
 
== <span style="font-size:x-large;">Variables of Interest</span> ==
 
== <span style="font-size:x-large;">Variables of Interest</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="0" cellpadding="0" align="left" width="344" style="width:344px;"
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:16px;" |
 +
'''Variable Name'''
 +
 +
| nowrap="nowrap" style="width:235px;height:16px;" |
 +
'''Description'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''POWER'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
Total power index
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''CPOW'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
Conventional power
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:22px;" |
 +
'''NPOW'''
 +
 +
| nowrap="nowrap" style="width:235px;height:22px;" |
 +
Nuclear power
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:22px;" |
 +
'''WCPOW'''
 +
 +
| nowrap="nowrap" style="width:235px;height:22px;" |
 +
World conventional power
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:22px;" |
 +
'''WNPOW'''
 +
 +
| nowrap="nowrap" style="width:235px;height:22px;" |
 +
World nuclear power
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:22px;" |
 +
'''PCONGREAT'''
 +
 +
| nowrap="nowrap" style="width:235px;height:22px;" |
 +
Power concentration of great powers
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:22px;" |
 +
'''PCONGREATEU'''
 +
 +
| nowrap="nowrap" style="width:235px;height:22px;" |
 +
Power concentration of great powers, single Europe
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''PCONGREATEUF'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
Power concentration of great powers, flexibly defined, with single Europe.
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''THREAT'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
Probability of militarized conflict
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''THREATREC'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
Threat received
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''THREATSENT'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
Threat sent
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''WGDP'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
World GDP
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''WTRADE'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
World trade
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''GOVEMBED'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
Government embeddedness
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:21px;" |
 +
'''CWAR'''
 +
 +
| nowrap="nowrap" style="width:235px;height:21px;" |
 +
Conventional war
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''CWARPB'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
Conventional war probability
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''NWAR'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
Nuclear war
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''NWARPB'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
Nuclear war probability
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''CIVDM'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
Civilian damage (multiplier)
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''DEMOCPOLITY'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
Level of democracy
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''DIPLOEMBASSY&nbsp;<sup>10</sup>'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
Number of embassies held in other countries
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''DIPLOIGO'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
International organization membership
 +
 +
|-
 +
| nowrap="nowrap" style="width:109px;height:24px;" |
 +
'''DIPLOTREATY'''
 +
 +
| nowrap="nowrap" style="width:235px;height:24px;" |
 +
Treaty participation
 +
 +
|}
 +
<div><br/><div id="ftn1">
 +
<sup>10</sup>For '''DIPLOEMBASSY, DIPLOIGO '''and '''DIPLOTREATY''', there exist three corresponding variables with the suffix '''MAX''' that cap forecast values.
 +
</div></div><span style="font-size:x-large;"></span><span style="font-size:x-large;"></span>
 +
Unlike other systems, such as demographics or economics, there is no standard organizational structure used to represent international politics. In order to establish a theoretical structure that describes interactions between states, IFs draws on in-house expertise, as well as work conducted by other research organizations, academics and governments and, of course, international relations theory and empirical work. The two foundational elements in the model are power and threat levels, which trigger alliances, conflicts and military spending. IFs takes conceptual and theoretical inputs from projects that have been dedicated to quantifying power and threat dynamics, including J. David Singer’s Correlates of War project, initiated at the University of Michigan, which produced the Composite Index of National Capability (CINC) –a measure of hard power, the CINC formulation includes demographic, economic and military components. IFs reaches out for data to a variety of sources including the Stockholm International Peace Research Institute’s (SIPRI) datasets on military expenditures, arms trade, and international conflicts. The IFs international politics module contributes to existing work in the field by forecasting measures of hard power and of threat levels between states. It is increasingly also developing data and forecasting capability around diplomacy.
 +
 +
IFs includes several formulations of power. The variable '''POWER '''is an index, computed in the model, that measures each country’s share of world power. The index is comprised of weighted elements for: GDP, population, GDP per capita (as a proxy for technological sophistication), government size, public military spending, conventional power, and nuclear power. Levels of conventional ('''CPOW''') and nuclear ('''NPOW''') power have their own dynamics, but both are primarily dependent on military spending patterns, as captured in the variable '''GDS '''and an associated parameter that determines the amount of funding available for nuclear weapons research. (For a full discussion of government spending flowing to the military and to other destinations, see the [[#_The_Economic_Module_1|economic]] section.) '''NPOW''' is not an index – like '''POWER''' or '''CPOW''' – but rather the number of nuclear warheads owned by each country. Two additional variables measure global power. The indicator of the world’s stock of nuclear power, '''WNPOW''', is measured in megatons. And '''WCPOW''' is an aggregate value of all countries’ conventional power, expressed as an index.
 +
 +
Depending on the configuration of power at a given point in time, the international system may be multipolar, bipolar, or unipolar. A set of variables in the model capture the degree to which power is concentrated in the hands of a few nations. The index '''PCONGREAT '''measures the percentage of global power held by dominant, or great powers— as values approach zero, smaller shares of power would be held by so-called great powers. '''PCONGREATEU''' measures the percentage of global power held by great powers, considering the European Union to be a single actor. '''PCONGREATEUF '''measures the percentage of global power held by great powers, with the European Union considered a single actor and the category “great power” flexibly defined; the flexible definition refers to the phasing in of great power status above a threshold share of global power up to full great power status upon attaining a higher share. And finally, the variable '''PCONSYS''' is an index indicating the power concentration of the global system, regardless of the number of great powers.
 +
 +
In IFs, the balance of power between actors in the international system links forward to threat ('''THREAT''') of militarized interstate disputes (MIDs). The model calculates the threat that any state poses to any other state as a product of historical conflict data and a predictive function. Three especially important factors drive the dyadic function: contiguity, whether or not either of the countries is a great power, and the existence of a territorial dispute between the countries. Additional drivers of international threat include world trade ('''WTRADE'''), energy production ('''WENP'''), and strength of democracy ('''DEMOCPOLITY'''). We also compute a level of government embeddedness ('''GOVEMBED''') that may interact with power structures in future model development. (Government embeddedness is a concept taken from international political economy; a government is considered embedded if its actions are constrained by domestic institutions, firms and households). The results of computations are stored in an index, '''THREAT''', which can be interpreted very roughly as the probability that a pair of countries will experience a militarized dispute in a given year (but expressed in percentage terms of 0-100 instead of probabilistic ones of 0-1). Countries can be theorized as both recipients and deliverers of threat: '''THREATREC '''is of the total of all threat received from all senders; '''THREATSENT''' is, as the name indicates, the total threat sent by a country. And the variable '''WTHREAT '''is an average of threat levels between all country pairs, thus offering an indication of global military tension.
 +
 +
The model includes a specialized display for threat dynamics and other dyadic (country-to-country) interaction. To access the display select the Data Analysis option from the IFs main menu, then select Dyadic Interaction Display. On the resulting form, users can explore the relationship between any two countries via the list boxes labeled CountryA and CountryB. In addition to '''THREAT''', a slew of international political variables are available for dyadic display in the Variable box: Midpresent, FatalityBinary, StandAlliance, StandDiplo, StandGO, Stand UN, StandTrade, StandCOI, StandLiberalisHigherMoreLib, StandRealismLowerMoreTension.
 +
 +
As an additional feature, the international politics module includes an optional war simulation. When the war option is activated, the model will stochastically (randomly) introduce a war, based on dyadic threat levels described above. The variables '''CWARPB '''and '''NWARPB''' measure the probability that a conventional or nuclear war will break out in a given year, whether or not the switch for the war option is activated. When the switch is on, a second pair of variables identifies the occurrence or absence of conventional war and nuclear war: '''CWAR''' and '''NWAR''' take on binary values, 1 indicating the presence of war, and 0 indicating the absence of war. Once a war event takes place, the countries involved will experience fatalities and material damage. '''CIVDM''' tracks the human costs to overall population and the capital lost in the fighting.
 +
 +
In addition to forecasting power, threat and conflict, the IFs model forecasts several diplomatic measures. The model currently includes variables containing the number of embassies each country has abroad ('''DIPLOEMBASSY'''), international organization membership ('''DIPLOIGO'''), and treaty membership ('''DIPLOTREATY'''). Like the other variables in IFs, these measures of soft power are forecast out to 2100 for each country.
 +
 +
Parameters in the international politics model allow users to create alternative scenarios that explore uncertainty around the international power structure, dyadic threat levels, the outbreak of war, and diplomacy.
  
 
== <span style="font-size:x-large;">Parameters&nbsp;Affecting Power</span> ==
 
== <span style="font-size:x-large;">Parameters&nbsp;Affecting Power</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="632" style="width:632px;"
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''cpowf'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
CPOW
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Factor controlling military spending conversion
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Convergence factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''cpowldcf'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
CPOW
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Higher impact of military spending in LDCs
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Convergence factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''drcpow'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
CPOW
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Depreciation rate of conventional power
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Rate of change
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''cpowdf'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
CIVDM
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Conventional power, damage done by war
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''govnucwpadd'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
NPOW
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Nuclear weapons stockpile change
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''wpwghtpow'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
POWER
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Contribution of various components to power index
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Index weight
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''wpgreatthresh'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
PCONGREAT
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Systemic power share required for threshold of great power status
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''wpgreatlev'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
PCONGREAT
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Systemic power share required for full great power status
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''wpconeusw'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
PCONGREAT
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
EU great power switch
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Switch
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''wpconmax'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
PCONSYS
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Maximum power concentration
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Limit
 +
 +
|-
 +
| nowrap="nowrap" style="width:127px;height:22px;" |
 +
'''wpconmin'''
 +
 +
| nowrap="nowrap" style="width:104px;height:22px;" |
 +
PCONSYS
 +
 +
| nowrap="nowrap" style="width:281px;height:22px;" |
 +
Minimum power concentration
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Limit
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
A suite of parameters is available to users who wish to explore power dynamics in the IFs model. Conventional power ('''CPOW''') can be manipulated using the parameters '''cpowf''', '''cpowldcf''', and '''drcpow'''. The first controls the elasticity between military spending and conventional power accrual; higher values of '''cpowf''' increase the impact that military spending has on conventional power measures. '''Cpowldcf''' controls the impact of military spending within LDCs, where military spending has historically had a greater impact on measures of power, largely because the costs of military personnel are lower. And '''drcpow''' controls the depreciation rate of conventional power. This parameter controls the rate at which past investments in conventional power decline as a contribution to power in successive years. The destructiveness of interstate conflict has a negative impact on conventional power measures. The impact that conventional war has on combatant nations, as measured by '''CIVDM''', can be controlled by '''cpowdf'''—the higher the parameter value, the greater the civilian deaths and capital destruction. Users may also increase or decrease a country’s stock of nuclear weapons via the parameter '''govnucwpadd'''. Nuclear weapons capacity influences total power through the nuclear power component, '''NPOW'''.
 +
 +
The aggregate measurement of power is similarly connected to parameter levers. The parameter '''wpwghtpow '''allows users to customize the set of weights used in the calculation of the power index ('''POWER'''). Individual weights are attached to each of the index’s components: population, GDPatPPP, GDP, GDPxGDPPCatPPP, GDPxGDPPC, Govt, MilSpend, ConvPow, NucPow, NucWarHeads, EnergyNetExport, TradeTotal, FDIInflows, AidNet, HumCapWkPopHDI, GovRev, InnovationR&D, and ConnectivityICTProd.
 +
 +
Users can also alter the role of great powers in the international political system.'''Wpgreatthresh''' controls the threshold level of the power index that, when achieved, signals the basic level of a nation’s transition into (or out of) being a great power. '''Wpgreatlev''' controls the power share held by full great powers, allowing users to model greater or lower levels of power diffusion. And, '''wpconeusw''' is a switch parameter that controls whether the EU is considered a single great power in the global power structure.
 +
 +
Two final parameters place limits on the levels of power that any country can experience. '''Wpconmax''' and '''wpconmin '''set the maximum and minimum level of power that a country can reach in forecast years.
  
 
== <span style="font-size:x-large;">Parameters Affecting Threat Levels</span> ==
 
== <span style="font-size:x-large;">Parameters Affecting Threat Levels</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="637" style="width:637px;"
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''Parameter'''
 +
 +
| style="width:86px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| style="width:252px;height:20px;" |
 +
'''Description'''
 +
 +
| style="width:156px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpgreat1'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Dyadic dispute probability, one great power
 +
 +
| style="width:156px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpgreat2'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Dyadic dispute probability, two great powers
 +
 +
| style="width:156px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wppowtran1'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Power transition threshold
 +
 +
| style="width:156px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wppowtran2'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Increase in dispute probability with 10% greater power parity
 +
 +
| style="width:156px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpcon'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Change in threat with power concentration
 +
 +
| style="width:156px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpconsq'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Change in threat with power concentration
 +
 +
| style="width:156px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpcontiguity'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Threat associated with geographic proximity
 +
 +
| style="width:156px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpdemdist'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Response of threat to political distance
 +
 +
| style="width:156px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpdemmin'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Response of threat to the minimum democracy level in the dyad
 +
 +
| style="width:156px;height:20px;" |
 +
Limit
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''glocom'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Global community multiplier
 +
 +
| style="width:156px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpcommun'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Response of threat to global community level
 +
 +
| style="width:156px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wptrade'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Change in threat with systemic trade
 +
 +
| style="width:156px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''ally'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Alliance membership switch
 +
 +
| style="width:156px;height:20px;" |
 +
Switch
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpally'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Reduction in threat with allied dyad
 +
 +
| style="width:156px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''terdispute'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Territorial dispute or absence
 +
 +
| style="width:156px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpterdisp'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Conflict arising from territorial disputes
 +
 +
| style="width:156px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:143px;height:20px;" |
 +
'''wpthrconv'''
 +
 +
| style="width:86px;height:20px;" |
 +
THREAT
 +
 +
| style="width:252px;height:20px;" |
 +
Threat level convergence
 +
 +
| style="width:156px;height:20px;" |
 +
Convergence Speed
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
All parameters modifying threat affect the same variable, probability of dyadic conflict ('''THREAT'''). '''Wpgreat1 '''and '''wpgreat2''' specify the likelihood of disputes involving one and two great powers, respectively. The reason these parameters exist is that great powers have historically been much more likely to experience conflict than have other states. A subset of great powers, namely the global leader in power and any power challenging that leadership and transition itself into system leadership, is especially likely to be engaged in conflict. '''Wppowertran1''' sets the dyadic power ratio for those two countries that identifies the beginning of a power transition and thereby triggers an increase in conflict threat levels. For example, a '''wppowertran1''' value of 0.7 means that a threat increase would begin once the weaker dyad member achieve a power score ('''POWER''') equal to 70 percent of the more powerful member’s score. '''Wppowertran2 '''then establishes increase in the likelihood of conflict associated with increased power parity. More specifically, a '''wppowertran2''' value of 0.05 means that, once a power transition has begun, each further reduction in a dyad’s power differential of 10 percent leads to an increase in threat levels of 5 percent.
 +
 +
Regardless of the number of great powers or the occurrence of a power transition, the concentration of power in the global system of great powers (PCONGREAT), as described earlier, can affect the level of threat of conflict (THREAT). Users may wish to take note of, '''wpcon '''and '''wpconsq''', the two coefficients that control the relationship between power concentration and conflict likelihood. Wpcon directly links concentration to threat and wpconsq links the square of power concentration to threat.
 +
 +
Several additional parameters relate to the probability or threat of conflict in a dyad . '''Wpcontiguity''' controls the threat of dispute generated by geographic proximity, one of the strongest determinants of conflict. '''Wpdemdist '''alters threat generated in response to political incompatibility—i.e., divergent levels of democracy—between two members in a dyad (the greater the distance, the greater the threat). '''Wpdemmin '''relates conflict to the democracy level of the less democratic member of a dyad (if democracy of that member rises, the default value of that parameter would lower threat). A pair of parameters together establish the relationship between the global community and threat. '''Glocom '''represents an exogenous specification of the cohesiveness of the global community, and'''wpcommun '''is an elasticity between international cohesion and the probability of conflict. '''Wptrade''' modifies the response of threat to the level of systemic trade. The parameter '''ally '''is a switch parameter that turns on or off alliance memberships, while the parameter '''wpally '''reduces the probability of dispute if two dyadic members are allied. And finally, '''terdispute''' defines the presence or absence of a territorial dispute within a dyad, while '''wpterdisp''' changes the likelihood of conflict arising from such disputes.
 +
 +
One other parameter is worth noting. '''Wpthrconv''' defines the convergence speed of historical threat levels within a dyad (which in initialization for the first model year reflect the reality of past conflicts) to the level of dyadic threat as calculated using all of the drivers and relationships indicated above. If that convergence speed, expressed in terms of the number of years for full convergence, is very slow (a high value for years needed), then the path dependency of past conflict will continue much more strongly to affect future likelihood than if the convergence speed is very fast (a low value for years).
  
 
== <span style="font-size:x-large;">Parameters Affecting War Simulation</span> ==
 
== <span style="font-size:x-large;">Parameters Affecting War Simulation</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="632" style="width:632px;"
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''wpthrwar'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
CWARPB
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
Portion of disputes that escalate to war
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''waron'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
CWAR, NWAR
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
War switch
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Switch
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''cwarbase'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
CWARPB
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
Conventional war probability addition to base computation
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''cwarf'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
CWARPB
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
Conventional war forcing
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Switch
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''cwarsv'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
CIVDM
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
Conventional war severity
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''nwarf'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
NWARPB
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
Probability that conventional war will escalate to nuclear
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''cdmf'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
CIVDM
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
Civilian war damage factor
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''nwarsv'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
CIVDM
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
Nuclear war severity
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:118px;height:22px;" |
 +
'''elndpow'''
 +
 +
| nowrap="nowrap" style="width:100px;height:22px;" |
 +
CIVDM
 +
 +
| nowrap="nowrap" style="width:295px;height:22px;" |
 +
Elasticity of nuclear damage with nuclear power
 +
 +
| nowrap="nowrap" style="width:120px;height:22px;" |
 +
Elasticity
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 +
Threat ('''THREAT''') within a dyad is, as indicated above, related to the probability of conflict but not identical to it, because scaling of the various contributions to the threat variable is complicated and uncertain. The parameter '''wpthrwar''' translates threat within a dyad into a probability of conventional conflict ('''CWARPB''') in that same dyad. There will never be an actual conventional war, however, unless the war switch is turned on ('''waron'''=1). When that switch is on and '''CWARPB''' for a dyad is non-zero, conventional war in any dyad-year occurs randomly in relationship to that war probability. For any given dyad-year a user can change the probability of conventional war with the additive parameter '''cwarbase'''. Or wars can be forced with the parameter switch, '''cwarf''', when it is set to 100 or above.
 +
 +
The probability of a nuclear war ('''NWARPB''') is zero unless there is a conventional war (CWAR=1). If there is a conventional war, the probability of a nuclear war is determined by the severity of conventional war ('''cwarsv''') and the probability of escalation ('''nwarf'''). If '''nwarf''' is set to 100 or above, it will force a nuclear war when a conventional one occurs between nuclear powers.
 +
 +
Once a conventional or nuclear war takes place, several parameters determine how damaging the effects will be. '''Cdmf''' is a multiplier that serves as a civilian war damage factor–the higher the parameter’s value, the greater the casualties and physical destruction. Two related parameters, '''cwarsv '''and'''nwarsv''', control the severity of conventional and nuclear war. '''Elndpow''' is an elasticity of nuclear war severity and nuclear weapon numbers.
  
 
== <span style="font-size:x-large;">Parameters Affecting Diplomacy</span> ==
 
== <span style="font-size:x-large;">Parameters Affecting Diplomacy</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="632" style="width:632px;"
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:22px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:148px;height:22px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:22px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:92px;height:22px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:22px;" |
 +
'''diploembassymaxm'''
 +
 +
| nowrap="nowrap" style="width:148px;height:22px;" |
 +
DIPLOEMBASSYMAX
 +
 +
| nowrap="nowrap" style="width:257px;height:22px;" |
 +
Maximum embassies abroad
 +
 +
| nowrap="nowrap" style="width:92px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:22px;" |
 +
'''diploigomaxm'''
 +
 +
| nowrap="nowrap" style="width:148px;height:22px;" |
 +
DIPLOIGOMAX
 +
 +
| nowrap="nowrap" style="width:257px;height:22px;" |
 +
Maximum international organization membership
 +
 +
| nowrap="nowrap" style="width:92px;height:22px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:22px;" |
 +
'''diplotreatymaxm'''
 +
 +
| nowrap="nowrap" style="width:148px;height:22px;" |
 +
DIPLOTREATYMAX
 +
 +
| nowrap="nowrap" style="width:257px;height:22px;" |
 +
Maximum bilateral treaty participation
 +
 +
| nowrap="nowrap" style="width:92px;height:22px;" |
 +
Multiplier
 +
 +
|}
 +
 +
<span style="font-size:x-large;"></span>The diplomacy portion of the IFs international politics module is under development. Currently, three multiplicative parameters exist that allow users to manipulate forecast values of embassies abroad ('''DIPLOEMBASSY'''), international organization membership ('''DIPLOIGO)''' and bilateral treaty agreements ('''DIPLOTREATY'''). Forecast values of each measure of soft power are limited by cap variables— '''DIPLOEMBASSYMAX''', '''DIPLOIGOMAX''', and '''DIPLOTREATYMAX'''. Users can raise or lower these caps via the parameters '''diploembassymaxm''', '''diploigomaxm''' and '''diplotreatymaxm'''.
  
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 
== <span style="font-size:x-large;">Prepackaged Scenarios</span> ==
 +
<span style="font-size:x-large;"></span>
 +
There are few prepackaged scenarios which make use of the international politics parameters. Two sets featuring limited interventions are located under the Understandings of Causality heading in the Prepackaged Scenarios folder. Under the heading Power Capabilities are a number of different formulations of global power which modify the parameter '''wpwghtpow'''. These modifications are designed to reproduce the distributions of global power that have been discussed by academic researchers. For instance, the scenario COW-Like 3-Element at PPP increases the weighting for population, GDP at PPP, and military spending in the calculation of power. Three other scenarios in this folder (Brecke Formulation, Hillebrand-Herman Base and COW-Like 3-Element at Market) create alternative structuring of the POWER variable. Two other scenarios in this folder, Slow China Formulation, and Slow China Formulation with growth, model a slow growth in power for China by underweighting the value of military spending, GDP, GDPPPC, and population, while overweighting GDPPC.
  
 +
In the folder labeled Threat International are two scenarios that model the threat of international war. These two scenarios modify the parameter '''wpthrconv''' in order to frame various assumptions about the dynamics of threats at the international level.
 +
 +
Finally, one scenario in the World Integrated Scenario Sets demonstrates the use of power parameters. This scenario is located in the MENA Scenarios and is called Iran Nukes + Sanctions. The scenario models the possible effect of Iran acquiring nuclear weapons and the potential US response. This scenario increases '''govnucwpadd '''to simulate the effect of Iran acquiring nukes, and then alters the calculation of the power index to underweight population, GDPPP, GDPxGDPPCatPPP, and military spending, while overweighting the effect of nuclear warheads, net exports of energy, trade flows, FDI inflows, net aid, government revenue, human capital, innovation and R&D, and connectivity of ICT. It also decreases exports ('''xshift'''), protectionism ('''protecm'''), oil and gas production ('''enpm'''), to demonstrate the possible impact of an international response that favored increasing sanctions against the country.
 +
<span style="font-size:x-large;"></span>
 
= <span style="font-size:xx-large;">Parameter Dictionary</span> =
 
= <span style="font-size:xx-large;">Parameter Dictionary</span> =
  
 
== <span style="font-size:x-large;">Population</span> ==
 
== <span style="font-size:x-large;">Population</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="654" style="width:654px;"
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''tfrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
TFR, CBR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Total fertility multiplier
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''contrusm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CONTRUSE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Contraceptive use multiplier
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''eltfrcon'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
TFR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Elasticity of total fertility rate to contraception use
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''tfrmin'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
TFR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Long term TFR convergence value
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Limit
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''mortm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
DEATHS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Mortality multiplier (not cause specific)
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''hlmortm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
DEATHS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Mortality multiplier by cause
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''wmigrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
MIGRATE, MIGRANTS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
World migration rate multiplier
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''migrater'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
MIGRATE, MIGRANTS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Net migration rate (inward)
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Rate of change
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''workingageentry'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
POPPREWORK, POPWORKING
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Working age determinant
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:110px;height:20px;" |
 +
'''workingageretire'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
POPWORKING, POPRETIRED
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Retirement age determinant
 +
 +
| nowrap="nowrap" style="width:160px;height:20px;" |
 +
Exogenous specification
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">Health</span> ==
 
== <span style="font-size:x-large;">Health</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="654" style="width:654px;"
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hlmortm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
DEATHCAT, HLYLL, HLDALY
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Multiplier on Mortality (by cause)
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hlmorbm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
YLD
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Multiplier on morbidity
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hlstddthsw'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
DEATHCAT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Switches DEATHCAT from absolute numbers to deaths/1000
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Switch
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''watsafem'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
WATSAFE, INFMOR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Percentage of population with access to safe water
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''sanitationm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
SANITATION, INFMOR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Percentage of population with access to improved sanitation
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''malnm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
MALNCHPSH
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Prevalence of child malnutrition
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''ylm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
YL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Yield multiplier on agriculture
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hivm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HIVCASES
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Rate of HIV infection
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''envpm2pt5m'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENVPM2PT5
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Increases levels of environmental pollution
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hlsmokingm&nbsp;'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HLSMOKING
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Increases rate of smoking
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hlobesitym'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HLOBESITY
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Prevalence of obesity
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hlbmim'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HLBMI
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Multiplier on body mass index
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''deathtrpvm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
DEATHTRPV
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Multiplier on traffic deaths per vehicle
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''deathtrpvsetar, deathtrpseyrtar'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
DEATHTRPV
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Standard error target for traffic deaths per vehicle
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Relative target Value/Year
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hlmortmodsw'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CDR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Reduces crude death rate in Africa, Europe, Southeast Asia, West Pacific
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Switch
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hltechshift'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CDR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Rate of change in health technology
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hltechlinc'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CDR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Rate of change in health technology in low income countries
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hltechssa'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CDR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Rate of change in health technology in Sub-Saharan Africa
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:102px;height:20px;" |
 +
'''hltechbase'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CDR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Rate of change in health technology at base
 +
 +
| nowrap="nowrap" style="width:168px;height:20px;" |
 +
Exogenous specification
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">HIV/AIDS</span> ==
 
== <span style="font-size:x-large;">HIV/AIDS</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="645" style="width:645px;"
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''hivm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HIVRATE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
HIV infection rate, multiplier of percent of population infected
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''hivtadvr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HIV CASES, HIVRATE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Technical advance rate in of control of infection
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
Rate of change
 +
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''hivmdcm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HIVRATE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
HIV infection rate maximum for MDCs, multiplier
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
Rate of change
 +
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''hivpeakr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HIVCASES, HIVRATE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
HIV infection rate at year of peak
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
Target value
 +
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''hivpeakyr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HIVRATE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Sets year of epidemic peak
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
Target year
 +
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''hivincr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HIVCASES
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
HIV increase rate, only used prior to 2000
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
Rate of change
 +
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''aidsdrtadvr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AIDSDTHS, AIDSRATE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
AIDs death rate, technical annual advance rate in control
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
Rate of change
 +
 +
|-
 +
| nowrap="nowrap" style="width:64px;height:20px;" |
 +
'''aidsdratem'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AIDSRATE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
AIDs death rate as % of HIV infection rate, multiplier
 +
 +
| nowrap="nowrap" style="width:197px;height:20px;" |
 +
Multiplier
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">Education</span> ==
 
== <span style="font-size:x-large;">Education</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="660" style="width:660px;"
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edpriintngr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDPRIINTN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Primary net intake rate
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Annual growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edterintgr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDTERINT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Tertiary intake rate
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Annual growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edseclowrtrangr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDSECLOWRTRAN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Lower secondary transition rate
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Annual growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edsecupprtrangr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDSECUPPRTRAN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Upper secondary transition rate
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Annual growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edprisurgr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDPRISUR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Primary survival rate
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Annual growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edseclowrsurvgr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDSECLOWRSUR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Lower secondary survival rate
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Annual growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edsecupprsurvgr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDSECUPPRSUR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Upper secondary survival rate
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Annual growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edtergradgr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDTERSUR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Tertiary survival rates
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Annual growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''gdsm (education)'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government spending on education
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edbudgon'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Education funding priority
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''gdsedm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Education spending distribution
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edexppconv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDEXPERPRI
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Education spending per student, primary
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edexpslconv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDEXPERSEC
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Education spending per student, secondary
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edexpsuconv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDEXPERSEC
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Education spending per student, secondary
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edexptconv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDEXPERTER
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Education spending per student, tertiary
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edqtqltrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDEXPERPRI, EDEXPERSEC , EDEXPERTER and GDS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Education quantity-quality balance
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edprigndreqintn'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDPRIINTN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Gender parity for primary intake
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edprigndreqsur'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDPRISUR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Gender parity for primary survival
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edseclowrgndreqsurv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDSECLWRSUR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Gender parity for lower secondary survival
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edseclowrgndreqtran'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDSECLWRTRAN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Gender parity for lower secondary transition
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edsecupprgndreqsurv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDSECUPPRSUR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Gender parity for upper secondary survival
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edsecupprgndreqtran'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDSECUPPRTRAN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Gender parity for upper secondary transition
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edtergndreqint'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDTERINT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Gender parity for tertiary intake
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|-
 +
| nowrap="nowrap" style="width:135px;height:20px;" |
 +
'''edtergndreqgrad'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
EDTERSUR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Gender parity for tertiary survival
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">Economics</span> ==
 
== <span style="font-size:x-large;">Economics</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="660" style="width:660px;"
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''lapoprm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
LAB
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Labor participation rate multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''labfemshrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
LAB
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Female labor force participation rate multiplier&nbsp;
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''labretagem'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
LAB
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Retirement age<u>,</u> labor force participation multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''workageentry'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
POPRETIRED
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Age at which individuals enter the labor force
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''workageretire'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
POPRETIRED
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Age at which individuals leave the labor force
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:19px;" |
 +
'''invm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:19px;" |
 +
IDS
 +
 +
| nowrap="nowrap" style="width:257px;height:19px;" |
 +
Investment by destination sector
 +
 +
| nowrap="nowrap" style="width:179px;height:19px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''m<u>f</u>padd'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
MFP components
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Multifactor productivity, additive
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''mfpleadr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
MFP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
MFP growth rate of the technological lead country
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Growth Rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''mfpedspn'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDS-educ
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Increase portion of spending going to education
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''malnm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HLSTUNT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
&nbsp;Malnutrition multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''ylm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
YL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
&nbsp;Land yield
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''aginvm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGINV
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Investment in agriculture
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''econfreem'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ECONFREE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Economic freedom
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''goveffectm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVEFFECT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government effectiveness
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''govcorruptm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVCORRUPT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government corruption
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''freedomm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
FREEDOM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Freedom/democracy
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''mfpinfrindtrad'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
INFRAINDTRAD
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Traditional infrastructure
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''mfpinfrindict'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
INFRAINDICT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
ICT infrastructure
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''mfpenpri'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
WEP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
World energy price
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''gdsm, R&D'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDS, R&D
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Connectivity
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''govrevm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government revenue multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''gdsm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government spending by destination sector
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''gdsedm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Education spending distribution multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''infrabudsdrat'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Alters the priority of infrastructure in the budget reconciliation
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''govhhtrnpenm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVHHTRN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government pension spending multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''govhhtrnwlm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVHHTRN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government welfare spending multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''firmtaxrm,'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
SAVINGS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
National tax rates on firms, households, and indirect taxation
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''hhtaxrm (skilled, unskilled)'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
SAVINGS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
National tax rates on households, broken down by skilled and unskilled
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''indirecttaxrm­­­'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
SAVINGS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
National tax rates on firms, households, and indirect taxation
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''ginidomr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GINIDOM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Domestic Gini Index
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Growth Rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''ginidomm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GINIDOM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Domestic Gini Index multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''gdprext'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
GDP growth rate
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Growth Rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''xshift'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
X, XS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Export shift as a result of trade promotion
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''protecm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
M, MS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Protectionism in trade, multiplier on import prices
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''termtrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
TERMTR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Terms of trade balance, higher favors global south
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''xfdistockm'''&nbsp;
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
XFDISTOCK
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Inward stocks of FDI multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''xfdistoutm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
XFDISTOUT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Outward stocks FDI multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''xfdiwgrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
XFDI&nbsp;STOCK, XFDIOUT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
World FDI growth rate multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''xportfoliom'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
XPORTFOLIO
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Inward portfolio investment multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''xportstoutm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
XPORTFOLIO
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Outward portfolio investment stock multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''aiddon'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AID
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Aid foreign loan donations as % GDP
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''aidrec'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AID
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Aid receipts as % GDP
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''aidlpm&nbsp;'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AID
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Aid foreign loan percentage multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''labinformshrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
LABINFORMSHR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Labor informal share multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''gdpnformshrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GDPINFORMSHR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
GDP informal share multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''govbusindxm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVBUSINDEX
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government business index multiplier
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''tefinfadjm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
TEFF
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Multiplier of impact of informal GDP share on productivity
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:97px;height:20px;" |
 +
'''taxinfadjm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
HHTAXR, FIRMTAXR,&nbsp; SSWELTAXR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Multiplier of impact of informal GDP share on tax rates
 +
 +
| nowrap="nowrap" style="width:179px;height:20px;" |
 +
Multiplier
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">Infrastructure</span> ==
 
== <span style="font-size:x-large;">Infrastructure</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="648" style="width:648px;"
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraroadm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAROAD
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on road density expected/demanded
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraroadpavedpcntm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAROADPAVEDPCNT
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on percentage of roads paved
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''Infraroadraitrgtval, Infraroadraitrgtyr'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAROADRAI
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Target value/years after 2010 for achievement for population percentage living w/in 2km of an all-weather road
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Absolute target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraroadraisetar, infraroadraiseyrtar'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAROADRAI
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Standard error target and years after 2010 for achievement for rural road access index
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraelecgencapm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAELECGENCAP
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on electricity generation capacity
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''Infraelecaccm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAELECACC
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on electricity access
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''enelecshrendemm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAELECDEM
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on ratio of electricity use to total primary energy use
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraelectranlossm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAELECTRANLOSS
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on the loss of electricity in transmission and distribution
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ensolfuelm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on the reliance on solid fuel as a source of energy
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraelecacctrgtval/ infraelecacctrgtyr'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAELECACC
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Target value and years after 2010 for target achievement for population percentage w/ access to electricity
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Absolute target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraelecaccsetar/ infraelecaccseyrtar'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAELECACC
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Standard error target and years after 2010 for population percentage w/ access to electricity
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ensolfueltrgtval/ ensolfueltrgtyr'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Target value and years after 2010 for target achievement for percentage of households reliant on solid fuels
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Absolute target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ensolfuelsetar/ ensolfuelseyrtar'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Standard error target and years after 2010 for target achievement for percentage of households reliant on solid fuels
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''landirareaequipm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
LANDIRAREAEQUIP
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on land area equipped for irrigation
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''sanitationm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
SANITATION
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on percentage of people with access to sanitation
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''watsafem'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
WATSAFE
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on percentage of people with access to safe water
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''watwastem'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
WATWASTE
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on percentage of people connected to wastewater collection system,
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Absolute target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''watwastetreatm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
WATWASTETREAT
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on percentage of people connected to wastewater treatment
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Absolute target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''sanitationtrgtval/ sanitationtrgtyr'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
SANITATION
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Target value and years after 2010 for target achievement for population percentage with improved access to improved sanitation, by category of
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''watsafetrgtval/ watsafetrgtyr'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
WATSAFE
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Target value and years after 2010 for target achievement for population percentage without access to improved sources of water
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''sanitnoconsetar/ sanitimpconsetar/ sanithhconsetar/ sanitnoconseyrtar'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
SANITATION
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Standard error targets and years after 2010 for target achievement for population percentage with varying access to sanitation
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infratelem'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRATELE
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on fixed-line telephone lines per 100 persons
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictbroadm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ICTBROAD
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on fixed-line broadband subscriptions per 100 persons
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictbroadmobilm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ICTBROADMOBIL
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on mobile broadband subscriptions per 100 persons
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictbroadtrgtval, ictbroadtrgtyr'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ICTBROAD
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Target value and years after 2010 for target achievement for number of subscriptions per 100 persons
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Absolute target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictbroadmobiltrgtval, ictbroadmobiltrgtyr'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ICTBROADMOBIL
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Target value and years after 2010 for target achievement for number of subscriptions per 100 persons; varies between 0 and 150
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Absolute target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictbroadmobilsetar, ictbroadmobilseyrtar'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ICTBROADMOBIL
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Standard error target and years after 2010 for target achievement for ICT mobile broadband access
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictbroadsetar, ictbroadseyrtar'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ICTBROAD
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Standard error target and years after 2010 for target achievement for fixed broadband access
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictmobilsetar, ictmobilseyrtar'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
ICTMOBIL
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Standard error target and years after 2010 for target achievement for mobile phone access
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Relative target
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''gdsm (infrastructure)'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Gross domestic spending multiplier (infrastructure)
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infrabudsdrat'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Alters the priority of infrastructure in the budget reconciliation.
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Exogenous ratio
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:25px;" |
 +
'''infrainvnewpubshrm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:25px;" |
 +
INFRAINVESTNEWPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:25px;" |
 +
Portion of maintenance funding coming from public sources
 +
 +
| nowrap="nowrap" style="width:117px;height:25px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''Infrainvmaintpubshrm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Portion of new infrastructure funding coming from public sources
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''hhsizem'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
GDS
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Household size multiplier
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraroadpavedcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of paved roads
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraroadunpavedcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of unpaved roads
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraelecgencostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of electricity generation
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraelecaccruralcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of rural electricity access
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infraeleaccurbancostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of urban electricity access
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''watsafecostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of safe water
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''watsafeimpcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of improved safe water sources
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''sanitationcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of basic sanitation
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''sanitationimpcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of improved sanitation
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''watwastetreatcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of waste water treatment
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''landircostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of equipping land for irrigation
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''infratelecostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of telephone
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictmobilcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of mobile
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictbroadcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on unit cost of broadband
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:148px;height:20px;" |
 +
'''ictbroadmobilcostm'''
 +
 +
| nowrap="nowrap" style="width:146px;height:20px;" |
 +
INFRAINVESTNEWPUB, INFRAINVESTMAINTPUB
 +
 +
| nowrap="nowrap" style="width:236px;height:20px;" |
 +
Multiplier on mobile broadband
 +
 +
| nowrap="nowrap" style="width:117px;height:20px;" |
 +
Multiplier
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">Agriculture</span> ==
 
== <span style="font-size:x-large;">Agriculture</span> ==
  
 +
<span style="font-size:x-large;"></span>
 +
 +
{| border="1" cellspacing="1" cellpadding="1" width="648" style="width:648px;"
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''Parameter'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''agdemm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGDEM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Demand for agricultural production
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''calmeatm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGDEM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Demand for meat as a portion of total calories
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''elascd'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGDEM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Elasticity of crop demand to changes in food price
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''elasmd'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGDEM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Elasticity of crop demand to changes in food price
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''tgrld'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Target growth rate in cultivated land
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Initial
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''ylm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
YL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Crop yield (agricultural production)
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''ylmax'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
YL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Maximum crop yield
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''envylchgadd'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENVYLDCHNG
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Agricultural yield change
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Additive factor&nbsp;
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''slr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Livestock slaughter rate
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''livhdpro'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Livestock herd productivity gain with grain feeding
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''aquaculm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
FISH
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Fish production through aquaculture, multiplier
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''aquaculgr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AQUACUL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Growth in the use of aquaculture
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Growth Rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''ofscth, rfssh'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
FISH
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Global ocean fish catch and geographic distribution
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''lossm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
LOSS
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Agricultural wastage
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''aginvm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
YL, IDS (agriculture)
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Investment in agriculture
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''elagind'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Elasticity of industrial use of crops with price
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''elinag1'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
IDS (agriculture)
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Elasticity of investment in agriculture to profit levels
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''elinag2'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
IDS (agriculture)
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Elasticity of investment in agriculture to changes in profit level
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''malnm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
MALNCHP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Malnourished children
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:84px;height:20px;" |
 +
'''malnconv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
MALNCHP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Convergence time with cross-sectional norm
 +
 +
| nowrap="nowrap" style="width:180px;height:20px;" |
 +
Exogenous specification
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">Energy</span> ==
 
== <span style="font-size:x-large;">Energy</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="648" style="width:648px;"
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''endemm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENDEM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Energy demand
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''elasde'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP, WEP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Price elasticity of energy demand
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''carbtax'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Carbon tax
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''enrgdpgr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP, QE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Growth in energy efficiency
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Rate of change
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''enpm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Production multiplier
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''eprodr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Production growth rate
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''resorm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
RESOR&nbsp;
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Conventional resource multiplier
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''resorunconm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
RESORUNCON
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Unconventional resource multiplier
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''rdm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
RESER
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Discovery multiplier
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''etechadv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
QE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Rate of technical advance in energy
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''etechadvuncon'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
QE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Rate of technical advance in unconventional energy
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''qem'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
QE
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Capital output multiplier
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''eninvm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENIV
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Energy investment
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''enprix'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENPRI
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Regional energy price
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:99px;height:20px;" |
 +
'''enml, enxl'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENM, ENX
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Limits on energy imports and exports
 +
 +
| nowrap="nowrap" style="width:165px;height:20px;" |
 +
Exogenous specification
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">Environment</span> ==
 
== <span style="font-size:x-large;">Environment</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="642" style="width:642px;"
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''enpm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Energy production by type
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''endemm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENDEM, WEP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Energy demand multiplier
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''carbtax'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP, CARANN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Carbon tax
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Exogenous Specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''qem'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Capital-output ratio multiplier
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''resorm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
RESOR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Resource multiplier
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''enrgdpgr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Energy efficiency
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Growth rate
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''carfuel1'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CARANN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Carbon generated by gas
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''carfuel2'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CARANN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Carbon generated by natural gas
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''carfuel3'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CARANN
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Carbon generated by coal
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''envclimsens'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CO2PPM, WTEMP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Time sensitivity of global temperature to carbon dioxide
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Limit
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''carabr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CO2PPM, WTEMP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Carbon absorbed by oceans
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''carabrchng'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CO2PPM, WTEMP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
annual change in this absorption rate of carbon by oceans
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''envco2fert'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Crop sensitivity to environmental change
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Elasticity
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''envylchgadd'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENVYLDCHNG
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Agricultural yield change
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Additive factor
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''envylchgm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENVYLDCHNG
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Agricultural yield change
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''forestm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
WFOREST
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
World forest multiplier
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''tgrld'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
WFOREST, LD
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Land growth by type
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Initial condition
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''carforst'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
CO2PPM
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Level of carbon sequestered by forests
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Coefficient
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''watres'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
Unknown
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Renewable water resources
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Exogenous specification
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''tgrld'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
AGP
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Land growth by type
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Initial condition
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''ylm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
YL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Agricultural yield multiplier
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''envpm2pt5m'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENVPM2PT5
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
PM2.5 levels multiplier
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''ensolfuelm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Solid fuel use multiplier
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''ensolfuelsetar'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Solid fuel use SE target
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''ensolfuelseyrtar'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Solid fuel use SE target
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Standard error target
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''ensolfueltrgtval'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENSOL FUEL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Solid fuel elimination target
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Target
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''ensolfueltrgtyr'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
ENSOLFUEL
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Solid fuel elimination target
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Target
 +
 +
|-
 +
| nowrap="nowrap" style="width:104px;height:20px;" |
 +
'''hlsolfuelsw'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
DEATHCAT
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Relationship between solid fuel and respiratory diseases
 +
 +
| nowrap="nowrap" style="width:154px;height:20px;" |
 +
Switch
 +
 +
|}
 +
<span style="font-size:x-large;"></span>
 
== <span style="font-size:x-large;">Governance</span> ==
 
== <span style="font-size:x-large;">Governance</span> ==
 +
<span style="font-size:x-large;"></span>
 +
{| border="1" cellspacing="1" cellpadding="1" width="648" style="width:648px;"
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''Parameter'''
  
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
'''Variable of Interest'''
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
'''Description'''
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
'''Type'''
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''sfintlwaradd'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
SFINTLWAR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
State failure/internal war addition
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Additive
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''sfconv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
SFINTLWAR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
State failure convergence
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Convergence speed (years)
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''sfmassrep'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
SFINTLWAR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Mass repression factor
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Additive
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''wpextinterv'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
SFINTLWAR
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
External intervention factor
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Additive
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''govriskm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVRISK
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government risk multiplier
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Multiplicative
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''govriskweight'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVRISK
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government risk weight
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Weight
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''govrevm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Government Revenue Multiplier
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''firmtaxrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Firm tax multiplier
 +
 +
| nowrap="nowrap" style="width:141px;height:20px;" |
 +
Multiplier
 +
 +
|-
 +
| nowrap="nowrap" style="width:123px;height:20px;" |
 +
'''hhtaxrm'''
 +
 +
| nowrap="nowrap" style="width:127px;height:20px;" |
 +
GOVREV
 +
 +
| nowrap="nowrap" style="width:257px;height:20px;" |
 +
Household tax rate multiplier
 +
 +