G-Cubed model_12V_190

Sets:
NameElementsDescription
abroadUSA, JPN, EUW, GBR, KOR, CAN, AUS, NZL, CHN, IND, IDN, PHL, VNM, THA, MYS, ROA, LAM, AFR, MEN, ROWused in asset calculations
currencyUSA, JPN, EUW, GBR, KOR, CAN, AUS, NZL, CHN, IND, IDN, PHL, VNM, THA, MYS, ROA, LAM, AFR, MEN, ROWcurrency of assets
destUSA, JPN, EUW, GBR, KOR, CAN, AUS, NZL, CHN, IND, IDN, PHL, VNM, THA, MYS, ROA, LAM, AFR, MEN, ROWalias for regions
domforD, Fdomestic vs foreign
factorsK, L, E, Mtop tier factors of production
good_coalg04coal
good_constructiong06construction output
good_durable_manufacturingg09durable manufacturing
good_electricityg01electricity
good_gasg02natural gas
good_nondurable_manufacturingg10non-durable manufacturing
good_oilg05crude oil
good_oil_refiningg03liquid fossil fuels from oil-refining
good_other_agricultureg08agriculture
good_other_miningg07other mining products
good_servicesg12services
good_transportationg11transportation
goodsg01, g02, g03, g04, g05, g06, g07, g08, g09, g10, g11, g12ordinary products
goods_eg01, g02, g03, g04, g05energy goods
goods_mg06, g07, g08, g09, g10, g11, g12material goods
goods_mcg06, g07, g08, g10, g11, g12Material goods less durable manufacturing - those material goods consumed directly
goods_og01, g02, g03, g04, g05, g06, g07, g08, g09, g10, g11, g12ordinary goods - those with standard treatment
goods_ocg01, g02, g03, g04, g05, g06, g07, g08, g10, g11, g12Ordinary goods less durable manufacturing - those ordinary goods consumed directly
notROWUSA, JPN, EUW, GBR, KOR, CAN, AUS, NZL, CHN, IND, IDN, PHL, VNM, THA, MYS, ROA, LAM, AFR, MENused in CURR equation
notUSAJPN, EUW, GBR, KOR, CAN, AUS, NZL, CHN, IND, IDN, PHL, VNM, THA, MYS, ROA, LAM, AFR, MEN, ROWused with REXC equation
oecdUSA, JPN, EUW, GBR, KOR, CAN, AUS, NZLOECD countries
origUSA, JPN, EUW, GBR, KOR, CAN, AUS, NZL, CHN, IND, IDN, PHL, VNM, THA, MYS, ROA, LAM, AFR, MEN, ROWalias for regions
ownerUSA, JPN, EUW, GBR, KOR, CAN, AUS, NZL, CHN, IND, IDN, PHL, VNM, THA, MYS, ROA, LAM, AFR, MEN, ROWowner of assets ASSE
region_AFRAFRRest of Africa
region_AUSAUSAustralia
region_CANCANCanada
region_CHNCHNChina
region_EUWEUWWestern Europe
region_GBRGBRUnited Kingdom
region_IDNIDNIndonesia
region_INDINDIndia
region_JPNJPNJapan
region_KORKORSouth Korea
region_LAMLAMLatin America
region_MENMENMiddle East and North Africa
region_MYSMYSMalaysia
region_NZLNZLNew Zealand
region_PHLPHLPhilippines
region_ROAROARest of Asia
region_ROWROWRest of World
region_THATHAThailand
region_USAUSAUnited States
region_VNMVNMVietnam
regionsUSA, JPN, EUW, GBR, KOR, CAN, AUS, NZL, CHN, IND, IDN, PHL, VNM, THA, MYS, ROA, LAM, AFR, MEN, ROWcountries and regions
sec_stda01, a02, a03, a04, a05, a06, a07, a08, a09, a10, a11, a12sectors with standard treatment
sector_coala04coal mining
sector_constructiona06construction
sector_durable_manufacturinga09durable manufacturing
sector_eda01electric distribution
sector_gasa02gas extraction and utilities
sector_nondurable_manufacturinga10non-durable manufacturing
sector_oila05crude oil extraction
sector_oil_refininga03liquid fossil fuel refining
sector_other_agriculturea08agriculture
sector_other_mininga07other mining
sector_servicesa12services
sector_transportationa11transportation
sector_YYYYindustrial capital
sector_ZZZZhousehold capital
sectorsa01, a02, a03, a04, a05, a06, a07, a08, a09, a10, a11, a12sectors other than the capital-production sectors Y - for firms, and Z - for households
sectors_ea01, a02, a03, a04, a05energy sectors
sectors_ma06, a07, a08, a09, a10, a11, a12material sectors
sectors_oa01, a02, a03, a04, a05, a06, a07, a08, a09, a10, a11, a12non electricity generation sectors
sectors_osa01, a02, a03, a04, a05, a06, a07, a08, a09, a10, a11, a12Non electricity generation or distribution sectors
timet0Obsolete time set
varfacL, E, Mvariable factors
Variables:
NameDomainDescriptionUnitsLHSRHS
ABUYownernew purchases of foreign assetsend,gdp103104
ASSEcurrency, ownerassets in each currency, including ownsta,usgdp104104, 105, 71, 72
ASSUregionsassets held by region, in US$end,gdp10591
BCTgoods_o, dest, origunit border tax adjustmentdollar,exonone26, 7
BONDregionsbondsgdp,sta124124, 125, 127, 128, 69, 91
CAPsec_std, regionscapital stockgdp,sta3933, 39, 42, 43, 48, 61
CAPYregionsraw invt capital stockgdp,sta4034, 40, 44, 46, 49, 91
CAPZregionshousehold capital stockgdp,sta4135, 41, 45, 47, 50, 91
CNPEregionshousehold demand for energyend,gdp74130, 59
CNPKregionshousehold capital servicesend,gdp76none
CNPLregionshousehold demand for laborend,gdp73123, 23, 59, 69, 92
CNPOregionshousehold demand for materialend,gdp75131, 59
CONgoods_oc, regionshousehold demand for goodsend,gdp130, 1312, 3
CONPregionsnational accounts consumptionend,gdp70111, 112, 35, 59, 73, 74, 75, 76, 85, 86
CURNregionsdomestic currency current account using nominal interest paymentsend,gdp8994, 95
CURRregionsUSD current account using real interest paymentsend,gdp90103, 104, 93
DEFIregionsfiscal deficit (real interest rates)end,gdp127124, 128, 93
DEFNregionsfiscal deficit (nominal interest rates)end,gdp12894
DEFXregionsfiscal deficit shocks (real interest rates)exo,gdpnonenone
ENsec_std, goods_e, regionssector demand for energy goodsend,gdp1322
ENTsec_std, regionssector demand for energyend,gdp16132, 57
EPRCregionsexpected consumer price inflation rateend,intertemporal_constant,pct107113
EXCHregionsexch rate as US$ per unit of region currencyidx,logged,stl1, 98101, 113, 6, 99
EXCLregionsexch rate as US$ per unit of region currency - laggedidx,lagged,logged,sta99113
EXCRregionscountry risk premium relative to USexo,pctnone100
EXCXregionsexchange rate target percentage changeexo,pctnone113
EXQgoods_o, regionsexports, EXP.xxend,gdp1110, 122, 139, 2, 3, 4
EXQTregionsvalue of exports at sourceend,gdp1096
EYGRregionsexpected output growthend,intertemporal_constant,pct106113
GCEgoods_o, regionsgovernment purchases of goods and servicesend,gdp115, 116117, 2, 3, 4
GCETregionsnational accounts government spending excluding laborend,gdp117111, 112, 118, 85, 86
GDPNregionsGDP, nominalend,gdp85113, 87
GDPRregionsGDP, realend,gdp8687, 88
GNENregionsGNE, nominalend,gdp111113
GNERregionsGNE, realend,gdp112none
GNPRregionsgross national productend,gdp88none
GOVLregionslabor used by governmentexo,gdpnone118, 123, 23, 69, 92
GOVSregionsgovernment spending excluding laborexo,gdpnone115, 116
GOVTregionsnational accounts government spending including laborend,gdp118127
IINgoods_o, regionsraw capital sector demand for goodsend,gdp21, 222, 3, 4
IITEregionsraw capital sector demand for energyend,gdp1921, 58
IITLregionsraw capital sector demand for laborend,gdp18123, 23, 58, 69, 92
IITOregionsraw capital sector demand for materialend,gdp2022, 58
IMPgoods_o, dest, origindividual imports, IMP.xyend,exclude_dest_equals_orig,gdp711, 120, 8
IMPXgoods_o, dest, origindividual imports shift exo,gdpnone7
IMQgoods_o, regionsDF imports by good, IMQ.xxend,gdp5139, 7, 8, 9
IMQTregionsvalue of imports at destinationend,gdp996
INASregionsnominal USD net interest payments on foreign assetsend,gdp7289
INCMregionsafter tax household incomeend,gdp6970
INFCLregionshousehold materials inflation rateend,pct110113
INFLregionsconsumer price inflationend,pct108113
INFPregionsoutput price inflationend,pct82113
INFXregionsinflation targetexo,pctnone113
INSregions, goods_oshocks to aggregate investment demandexo,gdpnone111, 112, 2, 3, 4, 85, 86
INTFregionsrisk free interest rate, short-run, realend,pct8081
INTLregionsinterest rate, short-run, nominal (lagged)pct,sta114113
INTNregionsinterest rate, short (policy), nominalpct,stl113114, 128, 72, 79, 80
INTRregionsrisk adjusted interest rate, short-run, realend,pct81100, 125, 127, 128, 48, 49, 50, 69, 71, 92
INVsec_std, regionsraw investmentend,gdp42139, 43, 57, 63
INVPregionstotal investment by standard sectorsend,gdp6364
INVTregionstotal investment including by householdsend,gdp64111, 112, 18, 19, 20, 34, 58, 85, 86, 93, 94, 95
INVYregionsraw investmentend,gdp4458, 64
INVZregionshousehold investmentend,gdp45123, 59, 64
IRASregionsreal USD net interest payments on foreign assetsend,gdp7169, 88, 90
JNVsec_std, regionsinstalled investmentend,gdp4339, 48
JNVYregionsinstalled investment in the raw capital sectorend,gdp4640, 44, 49
JNVZregionsinstalled household investmentend,gdp4741, 45, 50
LABsec_std, regionssector demand for laborend,gdp15123, 23, 57, 69, 92
LABOregionslabor demandend,gdp2336
LABXregionslabor supplyexo,gdpnone36
LAMsec_std, regionsmarginal value of a unit of capitalcos,intertemporal_constant,pct4848, 51, 61
LAMYregionsmarginal value of a unit of capital in the raw capital sectorcos,pct4949, 52, 91
LAMZregionsmarginal value of a unit of household capitalcos,pct5050, 53, 91
LGDPNregionsGDP, nominalexo,nomusdbillionnonenone
LGDPRregionsGDP, realexo,realusdbillionnonenone
MONEregionsmoney demandend,gdp,logged7991
NB02regionsinterest rate, 2-year, nominalend,pctnonenone
NB05regionsinterest rate, 5-year, nominalend,pctnonenone
NB10regionsinterest rate, 10-year, nominalend,pctnonenone
NEERregionstrade-weighted exchange rate, FC/domesticend,idx,logged101none
OIsec_std, goods_m, regionssector demand for material goodsend,gdp1333, 4
OINsec_std, regionssector demand for materialsend,gdp17133, 57
OUGgoods, regionsdomestic supply of goodsend,gdp13139, 14, 67
OUPsectors, regionsdomestic productionend,gdp1415, 16, 17, 33, 57
OUTLregionsaggregate output (lagged)gdp,lagged,sta68113
OUTPregionsaggregate outputets,gdp67106, 113, 119, 68, 79
OUTXregionsshock to output targetexo,pctnonenone
OUYgoods, regionscomposite supplyend,gdp2, 3, 413, 5
PBAGregionsUSD value of permits sold through governmentexo,gdpnone124
PBALregionsvalue of permits sold, USDexo,gdpnone88, 89, 90
PGDPregionsGDP implicit price deflatorend,idx,logged87none
PIMgoods_o, dest, origlanded price of importsend,idx,logged6120, 26, 7, 8
PMQgoods_o, regionsimport landed price indexend,idx,logged827, 9
PMRgoods_o, regionsprice of imports incl tariffsend,idx,logged26139, 24, 5, 7
POIsec_std, regionssector price of materialsend,idx,logged135133, 17, 31, 57
PRCEregionshousehold price of energyend,idx,logged136130, 59, 74, 77
PRCLregionsaggregate price of consumer goods laggedidx,lagged,logged,sta83108, 36
PRCOregionshousehold price of materialend,idx,logged137109, 110, 131, 59, 75, 77
PRCOLregionshousehold price of material - laggedidx,lagged,logged,sta109110
PRCTregionsaggregate price of consumer goodsets,idx,logged77107, 108, 111, 113, 35, 36, 59, 70, 73, 74, 75, 76, 83, 85
PRDgoods, regionspost-tax price of goodsend,idx,logged3013, 139, 24, 65, 67
PRDLregionsweighted price of domestic output lagidx,lagged,logged,sta8482
PRDXregionsshock to weighted price of domestic outputexo,pctnonenone
PREsec_std, regionssector price of energyend,idx,logged134132, 16, 31, 57
PRFsec_std, regionsshort run profitsend,gdp57139, 60
PRFTregionstotal economywide profitsend,gdp6069
PRFYregionsprofits on raw capital sectorend,gdp58139, 60
PRFZregionsimputed short run profits on household capitalend,gdp5969
PRGTregionsaggregate price of government goodsend,idx,logged78115, 116, 117, 85
PRIDregionsweighted price of domestic outputets,idx,logged65111, 113, 118, 120, 122, 123, 139, 48, 49, 50, 51, 52, 53, 57, 58, 59, 67, 69, 70, 79, 80, 82, 84, 85, 91, 92, 93, 94, 95, 98
PRIEregionsraw capital sector price of energyend,idx,logged2819, 21, 32, 58
PRIIregionsprice paid by producers for raw capitalend,idx,logged32111, 123, 139, 18, 19, 20, 34, 48, 49, 50, 51, 52, 53, 57, 58, 59, 85, 93, 94, 95
PRIMregionsweighted price of importsend,idx,logged279
PRIXregionsweighted price of exportsend,idx,logged6610
PRKsec_std, regionsimplicit rental priceend,idx,logged3331, 48
PRKYregionsimplicit raw capital sector rental priceend,idx,logged3432, 49
PRKZregionsimplicit household rental priceend,idx,logged3550, 76, 77
PROIregionsraw capital sector price of materialend,idx,logged2920, 22, 32, 58
PRPsectors, regionspre-tax producer priceend,idx,logged3115, 16, 17, 30, 33, 57
PRSgoods, regionsproducer price of compositeend,idx,logged2412, 122, 129, 13, 139, 25, 5
PRTsec_std, goods_e, regionssector-specific input priceend,idx,logged129132, 134
PRXgoods_o, regionsprice of exports at sourceend,idx,logged1210, 6, 66
PRXXregionsshock to expected price of consumer goodsexo,pctnone36
PRYgoods, regionspurchase price of compositeend,idx,logged25115, 116, 117, 130, 131, 133, 135, 136, 137, 21, 22, 28, 29, 78
PTARregionsprice level targetexo,idx,loggednone113
RB10regionsinterest rate, 10-year, realend,pctnonenone
REERregionstrade-weighted real exch rate, FC/domesticend,idx,logged102none
REXBregion_CHNreal exchange rate without capital controls imposedidx,logged,stl141142
REXCregionsreal exchange rate as US$ per unit of region currencycos,idx,intertemporal_constant,logged100100, 140, 141
REXLregion_CHNreal exchange rate without capital controls imposed - laggedidx,lagged,logged,sta142none
REXNregionsreal exchange rate with capital controlsend,idx,logged140102, 104, 105, 69, 71, 72, 88, 89, 91, 93, 97, 98
RISEsec_std, regionsequity risk premium by sector and regiondel,exonone48
RISHregionsrisk premium for human wealthdel,exonone92
RISRregionsrisk premium in the yield curvedel,exonone81
RISWregionsBlanchard probability of deathdel,exonone70, 92
RISYregionsrisk premium for raw-capital sector capitaldel,exonone49
RISZregionsrisk premium for household capitaldel,exonone50
ROGYregionspotential output growth targetexo,pctnone113
RVGSregionsrevenue from unit taxesexo,gdpnone138
SAVIregionsreal domestic saving using real interest ratesend,gdp93none
SAVNregionsreal domestic saving using nominal interest ratesend,gdp94none
SAVTregionsdomestic non-government saving using nominal interest ratesend,gdp95none
SHEFsec_std, regionsautonomous energy efficiency improvementsexo,pctnone16, 31
SHEFCregionsconsumption autonomous energy efficiency improvementsexo,pctnone74, 77
SHKsec_std, regionsshock to capital efficiencyexo,pctnone31, 33
SHKCregionsshock to aggregate consumptionexo,gdpnone70
SHKIregions, sec_stdshock to inv equationexo,gdpnone42
SHKMregionsshock to money demandexo,pctnone79
SHLregions, sec_stdshock to labor due to labor-augmenting technical change and/or population growthexo,pctnone15, 31
SHLYregionsshock to raw capital sector labor due to labor-augmenting technical change and/or population growthexo,pctnone18, 32
SHLZregionsshock to household capital sector labor due to labor-augmenting technical change and/or population growthexo,pctnone73, 77
SHYsectors, regionsshock to total factor productivityexo,pctnone15, 16, 17, 31, 33
SHYYregionsshock to raw capital sector total factor productivityexo,pctnone18, 19, 20, 32, 34
SHYZregionsshock to household capital sector total factor productivityexo,pctnone35, 73, 74, 75, 76, 77
STMsec_std, regionsstock market valueend,gdp6162, 91
STMTregionstotal stock market valueend,gdp62none
TAXgoods, regionssales tax on compositeexo,pctnone129, 139, 25
TAXCregionsrevenue from sales and company taxesend,gdp139126
TAXEregionsrevenue from externality taxesend,gdp138126
TAXHregionsrevenue from taxes on wagesend,gdp123126, 92
TAXLregionsrevenue from lump-sum taxesend,gdp125126, 69, 92
TAXMregionstariff revenueend,gdp121126
TAXSregionsexogenous lump sum taxexo,gdpnone125
TAXTregionstotal revenueend,gdp126127
TAXXregionsexternal tax revenueend,gdp122126
TBALregionstrade surplus, domestic currencyend,gdp96113, 85, 86, 89, 97
TBAUregionstrade surplus, USDend,gdp9790
TCORregionstax rate on corporate profitsexo,pctnone139, 48, 49, 69
TEXgoods, regionsextern tax on compositeexo,pctnone12, 122
TIFgoods_o, destfta tariff ratesexo,pctnone120, 26, 7
TIMgoods_o, dest, origmultilateral tariff ratesexo,pctnone120, 26, 7
TINCregionstax rate on labor incomeexo,pctnone123, 69
TITCsec_std, regionsinvestment tax credit rateexo,pctnone139, 48, 51, 57, 61
TITCHregionshouseholds investment tax credit rateexo,pctnone123, 50, 53, 59
TIXgoods_o, destmultilateral iceberg costsexo,pctnone26, 7
TOBsec_std, regionsmarginal q, TOB.NCend,pct5142, 54
TOBYregionsmarginal Q, raw capital sectorend,pct5246, 55
TOBZregionsmarginal Q, householdsend,pct5347, 56
TPAsec_std, regionspartial adjustment qpct,sta5442, 54
TPAYregionspartial adjustment Q, raw capital sectorpct,sta5546, 55
TPAZregionspartial adjustment Q, householdspct,sta5647, 56
TRANregionstotal transfersend,gdp119127, 69, 92
TRANXregionsexogenous transfersexo,gdpnone119
TXGSsec_std, goods_e, regionsunit tax on goods to sectorsdollar,exonone129
TXMgoods_o, desttariff revenue by goodend,gdp120121
WAGsec_std, regionssector wageend,idx,logged38123, 15, 31, 57, 69, 92
WAGEregionswage rateidx,intertemporal_constant,logged,sta36113, 123, 18, 32, 36, 37, 38, 58, 59, 69, 73, 77, 92
WAGGregionsgovernment wageend,idx,logged37118, 123, 69, 92
WELHregionshuman wealthcos,gdp,intertemporal_constant9291, 92
WELTregionstotal wealthend,gdp9170
YRATNregionsGDP ratio, nominalexo,pctnonenone
Parameters:
NameDomainDescription
adaptregionsrate of closure TOB-TPA gap
aeyecurrency, owneridentity matrix
ainvowner, abroadinverse of I-ashr
alph_rexregionsweight on shadow real exchange rate in CA intervention
ashrcurrency, ownerasset split among currencies
base_jksec_std, regionsbase J/K
cd_dfgoods_o, regions1 if Cobb-Douglas, 0 if CES
cd_esectors, regions1 if cd, 0 if ces
cd_eHregions1 if cd, 0 if ces
cd_eRregions1 if cd, 0 if ces
cd_ffgoods_o, dest1 if cd, 0 if ces
cd_msectors, regions1 if cd, 0 if ces
cd_mHregions1 if cd, 0 if ces
cd_mRregions1 if cd, 0 if ces
cd_osectors, regions1 if cd, 0 if ces
cd_oHregions1 if cd, 0 if ces
cd_oRregions1 if cd, 0 if ces
deltaregionsdepreciation rate
delta_domgoods_o, regionsdomestic weight in CES function combining domestic and foreign sources
delta_eregions, sec_std, goods_einput weights, individ goods
delta_eGgoods_e, regionsgov budget shares on energy goods
delta_eHgoods_e, regionsinput weights, individ goods
delta_eRgoods_e, regionsinput weights on individual energy goods
delta_ffgoods_o, dest, origforeign source weights in FF
delta_mregions, sec_std, goods_minput weights, individ goods
delta_mGgoods_m, regionsgov budget shares on materials goods
delta_mHgoods_m, regionsinput weights, individ goods
delta_mRgoods_m, regionsinput weights on individual materials goods
delta_ofactors, sec_std, regionsinput weights, KLEM tier
delta_oGfactors, regionsgov KLEM budget shares
delta_oHfactors, regionsinput weights, KLEM tier
delta_oRfactors, regionsinput weights, KLEM tier
eer_weightdest, origtrade weights, NEER and REER
fore_cregionsshr of C driven by foresight
fore_i_yregionsshr of I driven by foresight in capital sector
fore_i_zregionsshr of I driven by foresight in household capital
foreisec_std, regionsshr of I driven by foresight std sector
FTAdest, origfree trade area tariff flag
int_elastregionsinterest elasticity of money demand
labgrowregionsgrowth of effective labor
makeinvgoods, sectors, regionsinverse of make table
mongdpregionscoefficient on MONE in WELT
mpcregionsmarginal propensity to consume
mrule_1regionsweight on CPI inflation in monetary rule
mrule_10regionsweight on nominal GDP in monetary rule
mrule_11regionsweight on nominal gross output in monetary rule
mrule_12regionsweight on nominal gross output net of trade in monetary rule
mrule_13regionsweight on expected CPI inflation in monetary rule
mrule_14regionsweight on expected real output growth in monetary rule
mrule_15regionsweight on nominal GNE in monetary rule
mrule_2regionsweight on PPI inflation in monetary rule
mrule_3regionsweight on Core inflation in monetary rule
mrule_4regionsweight on CPI level in monetary rule
mrule_5regionsweight on PPI level in monetary rule
mrule_6regionsweight on wage in monetary rule
mrule_7regionsweight on wage growth in monetary rule
mrule_8regionsweight on real output growth in monetary rule
mrule_9regionsweight on nominal gross output growth in monetary rule
mrule_exregionsweight on exchange rate in monetary rule
mrule_rregionsweight on lag interest rate in monetary rule
MULdest, origmultilateral tariff flag
phisec_std, regionsadjustment cost parameter std sector
phi_yregionsadjustment cost parameter capital sector
phi_zregionsadjustment cost parameter household capital
prid_weightgoods, regionsweights in PRID
prim_weightgoods_o, regionsweights in PRIM
prix_weightgoods_o, regionsweights in PRIX
sigma_dfgoods_o, regionselasticity of substitution between domestic and foreign sources
sigma_esectors, regionssubs elast, E tier
sigma_eHregionssubs elast, E tier
sigma_eRregionssubs elast, E tier
sigma_ffgoods_o, destsubs elast between F sources
sigma_msectors, regionssubs elast, M tier
sigma_mHregionssubs elast, M tier
sigma_mRregionssubs elast, M tier
sigma_osectors, regionssubs elast, KLEM tier
sigma_oHregionssubs elast, KLEM tier
sigma_oRregionssubs elast, KLEM tier
timeprefregionstime preference rate
transgdpregionstransfers per unit of GDP
wage_pregionsexp infl weight in wage equation
wage_qregionsemployment parameter in wage equation
Equations:
Equation 1: EXCH
\[ \href{#EXCH}{EXCH(\text{USA})} = 0 \]
Equation 2: OUY
For g13 in goods_e, r20 in regions (100 total):
\[ \href{#OUY}{OUY(g13,r20)} = \href{#CON}{CON(g13,r20)}+\href{#IIN}{IIN(g13,r20)} +\href{#INS}{INS(r20,g13)} +\href{#GCE}{GCE(g13,r20)} +\href{#EXQ}{EXQ(g13,r20)} +\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#EN}{EN(s,g13,r20)}\right) } \]
Equation 3: OUY
For g15 in goods_mc, r20 in regions (120 total):
\[ \href{#OUY}{OUY(g15,r20)} = \href{#CON}{CON(g15,r20)}+\href{#IIN}{IIN(g15,r20)} +\href{#INS}{INS(r20,g15)} +\href{#GCE}{GCE(g15,r20)} +\href{#EXQ}{EXQ(g15,r20)} +\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#OI}{OI(s,g15,r20)}\right) } \]
Equation 4: OUY
For g2 in good_durable_manufacturing, r20 in regions (20 total):
\[ \href{#OUY}{OUY(g2,r20)} = \href{#IIN}{IIN(g2,r20)}+\href{#INS}{INS(r20,g2)} +\href{#GCE}{GCE(g2,r20)} +\href{#EXQ}{EXQ(g2,r20)} +\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#OI}{OI(s,g2,r20)}\right) } \]
Equation 5: IMQ
For g16 in goods_o, r20 in regions (240 total):
\[ \href{#IMQ}{IMQ(g16,r20)} = {(1-\href{#delta_dom}{delta\_dom(g16,r20)})} *\href{#OUY}{OUY(g16,r20)} *exp{ \left( \href{#PRS}{PRS(g16,r20)}-\href{#PMR}{PMR(g16,r20)}\right) } ^\href{#sigma_df}{sigma\_df(g16,r20)} \]
Equation 6: PIM
For d in dest, g16 in goods_o, o1 in orig (4800 total):
\[ \href{#PIM}{PIM(g16,d,o1)} = \href{#EXCH}{EXCH(o1)}+\href{#PRX}{PRX(g16,o1)} -\href{#EXCH}{EXCH(d)} \]
Equation 7: IMP
For d in dest, g16 in goods_o, o1 in orig (4800 total):
\[ \href{#IMP}{IMP(g16,d,o1)} = \href{#delta_ff}{delta\_ff(g16,d,o1)}*\href{#IMQ}{IMQ(g16,d)} *{(\href{#BCT}{BCT(g16,d,o1)} +{(1 +{(\href{#TIM}{TIM(g16,d,o1)}+\href{#TIX}{TIX(g16,d)})} *\href{#MUL}{MUL(d,o1)} +\href{#TIF}{TIF(g16,d)}*\href{#FTA}{FTA(d,o1)})} *exp{ \left( \href{#PIM}{PIM(g16,d,o1)}-\href{#PMR}{PMR(g16,d)}\right) })} ^{(-\href{#sigma_ff}{sigma\_ff(g16,d)})} +\href{#IMPX}{IMPX(g16,d,o1)} \]
Equation 8: PMQ
For d in dest, g16 in goods_o (240 total):
\[ \href{#PMQ}{PMQ(g16,d)} = ln{ \left( \frac{\sum_{o1 \; \text{in} \; \href{#orig}{orig}} { \left(\href{#IMP}{IMP(g16,d,o1)} *exp{ \left(\href{#PIM}{PIM(g16,d,o1)}\right) }\right) }}{\href{#IMQ}{IMQ(g16,d)}}\right) } \]
Equation 9: IMQT
For r20 in regions (20 total):
\[ \href{#IMQT}{IMQT(r20)} = \frac{\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(exp{ \left(\href{#PMQ}{PMQ(g16,r20)}\right) } *\href{#IMQ}{IMQ(g16,r20)}\right) }}{exp{ \left(\href{#PRIM}{PRIM(r20)}\right) }} \]
Equation 10: EXQT
For r20 in regions (20 total):
\[ \href{#EXQT}{EXQT(r20)} = \frac{\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(exp{ \left(\href{#PRX}{PRX(g16,r20)}\right) } *\href{#EXQ}{EXQ(g16,r20)}\right) }}{exp{ \left(\href{#PRIX}{PRIX(r20)}\right) }} \]
Equation 11: EXQ
For g16 in goods_o, o1 in orig (240 total):
\[ \href{#EXQ}{EXQ(g16,o1)} = \sum_{d \; \text{in} \; \href{#dest}{dest}} { \left(\href{#IMP}{IMP(g16,d,o1)}\right) } \]
Equation 12: PRX
For g16 in goods_o, r20 in regions (240 total):
\[ \href{#PRX}{PRX(g16,r20)} = ln{ \left( {(1+\href{#TEX}{TEX(g16,r20)})} *exp{ \left(\href{#PRS}{PRS(g16,r20)}\right) }\right) } \]
Equation 13: OUG
For g16 in goods_o, r20 in regions (240 total):
\[ \href{#OUG}{OUG(g16,r20)} = \href{#delta_dom}{delta\_dom(g16,r20)}*\href{#OUY}{OUY(g16,r20)} *exp{ \left( \href{#PRS}{PRS(g16,r20)}-\href{#PRD}{PRD(g16,r20)}\right) } ^\href{#sigma_df}{sigma\_df(g16,r20)} \]
Equation 14: OUP
For r20 in regions, s15 in sectors (240 total):
\[ \href{#OUP}{OUP(s15,r20)} = \sum_{g12 \; \text{in} \; \href{#goods}{goods}} { \left(\href{#makeinv}{makeinv(g12,s15,r20)}*\href{#OUG}{OUG(g12,r20)}\right) } \]
Equation 15: LAB
For r20 in regions, s in sec_std (240 total):
\[ \href{#LAB}{LAB(s,r20)} = exp{ \left( \href{#SHL}{SHL(r20,s)}+\href{#SHY}{SHY(s,r20)}\right) } ^{(\href{#sigma_o}{sigma\_o(s,r20)}-1)} *\href{#delta_o}{delta\_o(\text{l},s,r20)} *\href{#OUP}{OUP(s,r20)} *exp{ \left( \href{#PRP}{PRP(s,r20)}-\href{#WAG}{WAG(s,r20)}\right) } ^\href{#sigma_o}{sigma\_o(s,r20)} \]
Equation 16: ENT
For r20 in regions, s in sec_std (240 total):
\[ \href{#ENT}{ENT(s,r20)} = exp{ \left( \href{#SHEF}{SHEF(s,r20)}+\href{#SHY}{SHY(s,r20)}\right) } ^{(\href{#sigma_o}{sigma\_o(s,r20)}-1)} *\href{#delta_o}{delta\_o(\text{e},s,r20)} *\href{#OUP}{OUP(s,r20)} *exp{ \left( \href{#PRP}{PRP(s,r20)}-\href{#PRE}{PRE(s,r20)}\right) } ^\href{#sigma_o}{sigma\_o(s,r20)} \]
Equation 17: OIN
For r20 in regions, s in sec_std (240 total):
\[ \href{#OIN}{OIN(s,r20)} = exp{ \left(\href{#SHY}{SHY(s,r20)}\right) } ^{(\href{#sigma_o}{sigma\_o(s,r20)}-1)} *\href{#delta_o}{delta\_o(\text{m},s,r20)} *\href{#OUP}{OUP(s,r20)} *exp{ \left( \href{#PRP}{PRP(s,r20)}-\href{#POI}{POI(s,r20)}\right) } ^\href{#sigma_o}{sigma\_o(s,r20)} \]
Equation 18: IITL
For r20 in regions (20 total):
\[ \href{#IITL}{IITL(r20)} = exp{ \left( \href{#SHLY}{SHLY(r20)}+\href{#SHYY}{SHYY(r20)}\right) } ^{(\href{#sigma_oR}{sigma\_oR(r20)}-1)} *\href{#delta_oR}{delta\_oR(\text{l},r20)} *\href{#INVT}{INVT(r20)} *exp{ \left( \href{#PRII}{PRII(r20)}-\href{#WAGE}{WAGE(r20)}\right) } ^\href{#sigma_oR}{sigma\_oR(r20)} \]
Equation 19: IITE
For r20 in regions (20 total):
\[ \href{#IITE}{IITE(r20)} = exp{ \left(\href{#SHYY}{SHYY(r20)}\right) } ^{(\href{#sigma_oR}{sigma\_oR(r20)}-1)} *\href{#delta_oR}{delta\_oR(\text{e},r20)} *\href{#INVT}{INVT(r20)} *exp{ \left( \href{#PRII}{PRII(r20)}-\href{#PRIE}{PRIE(r20)}\right) } ^\href{#sigma_oR}{sigma\_oR(r20)} \]
Equation 20: IITO
For r20 in regions (20 total):
\[ \href{#IITO}{IITO(r20)} = exp{ \left(\href{#SHYY}{SHYY(r20)}\right) } ^{(\href{#sigma_oR}{sigma\_oR(r20)}-1)} *\href{#delta_oR}{delta\_oR(\text{m},r20)} *\href{#INVT}{INVT(r20)} *exp{ \left( \href{#PRII}{PRII(r20)}-\href{#PROI}{PROI(r20)}\right) } ^\href{#sigma_oR}{sigma\_oR(r20)} \]
Equation 21: IIN
For g13 in goods_e, r20 in regions (100 total):
\[ \href{#IIN}{IIN(g13,r20)} = \href{#delta_eR}{delta\_eR(g13,r20)}*\href{#IITE}{IITE(r20)} *exp{ \left( \href{#PRIE}{PRIE(r20)}-\href{#PRY}{PRY(g13,r20)}\right) } ^\href{#sigma_eR}{sigma\_eR(r20)} \]
Equation 22: IIN
For g14 in goods_m, r20 in regions (140 total):
\[ \href{#IIN}{IIN(g14,r20)} = \href{#delta_mR}{delta\_mR(g14,r20)}*\href{#IITO}{IITO(r20)} *exp{ \left( \href{#PROI}{PROI(r20)}-\href{#PRY}{PRY(g14,r20)}\right) } ^\href{#sigma_mR}{sigma\_mR(r20)} \]
Equation 23: LABO
For r20 in regions (20 total):
\[ \href{#LABO}{LABO(r20)} = \href{#IITL}{IITL(r20)}+\href{#CNPL}{CNPL(r20)} +\href{#GOVL}{GOVL(r20)} +\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#LAB}{LAB(s,r20)}\right) } \]
Equation 24: PRS
For g16 in goods_o, r20 in regions (240 total):
\[ \href{#PRS}{PRS(g16,r20)} = \href{#cd_df}{cd\_df(g16,r20)} *{(\href{#delta_dom}{delta\_dom(g16,r20)}*\href{#PRD}{PRD(g16,r20)} +{(1-\href{#delta_dom}{delta\_dom(g16,r20)})} *\href{#PMR}{PMR(g16,r20)})} +\frac{{({(1-\href{#cd_df}{cd\_df(g16,r20)})} *ln{ \left( \href{#delta_dom}{delta\_dom(g16,r20)} *exp{ \left(\href{#PRD}{PRD(g16,r20)}\right) } ^{(1-\href{#sigma_df}{sigma\_df(g16,r20)})} +{(1-\href{#delta_dom}{delta\_dom(g16,r20)})} *exp{ \left(\href{#PMR}{PMR(g16,r20)}\right) } ^{(1-\href{#sigma_df}{sigma\_df(g16,r20)})}\right) })}}{{(1 -\href{#sigma_df}{sigma\_df(g16,r20)} *{(1-\href{#cd_df}{cd\_df(g16,r20)})})}} \]
Equation 25: PRY
For g12 in goods, r20 in regions (240 total):
\[ \href{#PRY}{PRY(g12,r20)} = ln{ \left(1+\href{#TAX}{TAX(g12,r20)}\right) } +\href{#PRS}{PRS(g12,r20)} \]
Equation 26: PMR
For d in dest, g16 in goods_o (240 total):
\[ \href{#PMR}{PMR(g16,d)} = 0.0 +\href{#cd_ff}{cd\_ff(g16,d)} *\sum_{o1 \; \text{in} \; \href{#orig}{orig}} { \left(\href{#delta_ff}{delta\_ff(g16,d,o1)} *ln{ \left( \href{#BCT}{BCT(g16,d,o1)} +{(1 +{(\href{#TIM}{TIM(g16,d,o1)}+\href{#TIX}{TIX(g16,d)})} *\href{#MUL}{MUL(d,o1)} +\href{#TIF}{TIF(g16,d)}*\href{#FTA}{FTA(d,o1)})} *exp{ \left(\href{#PIM}{PIM(g16,d,o1)}\right) }\right) }\right) } +\frac{{({(1-\href{#cd_ff}{cd\_ff(g16,d)})} *ln{ \left( \sum_{o1 \; \text{in} \; \href{#orig}{orig}} { \left(\href{#delta_ff}{delta\_ff(g16,d,o1)} *{(\href{#BCT}{BCT(g16,d,o1)} +{(1 +{(\href{#TIM}{TIM(g16,d,o1)}+\href{#TIX}{TIX(g16,d)})} *\href{#MUL}{MUL(d,o1)} +\href{#TIF}{TIF(g16,d)}*\href{#FTA}{FTA(d,o1)})} *exp{ \left(\href{#PIM}{PIM(g16,d,o1)}\right) })} ^{(1-\href{#sigma_ff}{sigma\_ff(g16,d)})}\right) }\right) })}}{{(1 -\href{#sigma_ff}{sigma\_ff(g16,d)}*{(1-\href{#cd_ff}{cd\_ff(g16,d)})})}} \]
Equation 27: PRIM
For r20 in regions (20 total):
\[ \href{#PRIM}{PRIM(r20)} = \sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#prim_weight}{prim\_weight(g16,r20)} *\href{#PMQ}{PMQ(g16,r20)}\right) } \]
Equation 28: PRIE
For r20 in regions (20 total):
\[ \href{#PRIE}{PRIE(r20)} = \href{#cd_eR}{cd\_eR(r20)} *\sum_{g13 \; \text{in} \; \href{#goods_e}{goods\_e}} { \left(\href{#delta_eR}{delta\_eR(g13,r20)}*\href{#PRY}{PRY(g13,r20)}\right) } +\frac{{({(1-\href{#cd_eR}{cd\_eR(r20)})} *ln{ \left( \sum_{g13 \; \text{in} \; \href{#goods_e}{goods\_e}} { \left(\href{#delta_eR}{delta\_eR(g13,r20)} *exp{ \left(\href{#PRY}{PRY(g13,r20)}\right) } ^{(1-\href{#sigma_eR}{sigma\_eR(r20)})}\right) }\right) })}}{{(1 -\href{#sigma_eR}{sigma\_eR(r20)}*{(1-\href{#cd_eR}{cd\_eR(r20)})})}} \]
Equation 29: PROI
For r20 in regions (20 total):
\[ \href{#PROI}{PROI(r20)} = \href{#cd_mR}{cd\_mR(r20)} *\sum_{g14 \; \text{in} \; \href{#goods_m}{goods\_m}} { \left(\href{#delta_mR}{delta\_mR(g14,r20)}*\href{#PRY}{PRY(g14,r20)}\right) } +\frac{{({(1-\href{#cd_mR}{cd\_mR(r20)})} *ln{ \left( \sum_{g14 \; \text{in} \; \href{#goods_m}{goods\_m}} { \left(\href{#delta_mR}{delta\_mR(g14,r20)} *exp{ \left(\href{#PRY}{PRY(g14,r20)}\right) } ^{(1-\href{#sigma_mR}{sigma\_mR(r20)})}\right) }\right) })}}{{(1 -\href{#sigma_mR}{sigma\_mR(r20)}*{(1-\href{#cd_mR}{cd\_mR(r20)})})}} \]
Equation 30: PRD
For g12 in goods, r20 in regions (240 total):
\[ \href{#PRD}{PRD(g12,r20)} = ln{ \left( exp{ \left( \sum_{s15 \; \text{in} \; \href{#sectors}{sectors}} { \left(\href{#makeinv}{makeinv(g12,s15,r20)}*\href{#PRP}{PRP(s15,r20)}\right) }\right) }\right) } \]
Equation 31: PRP
For r20 in regions, s in sec_std (240 total):
\[ \href{#PRP}{PRP(s,r20)} = \href{#cd_o}{cd\_o(s,r20)} *{(\href{#delta_o}{delta\_o(\text{k},s,r20)} *\href{#PRK}{PRK(s,r20)} +\href{#delta_o}{delta\_o(\text{l},s,r20)} *\href{#WAG}{WAG(s,r20)} +\href{#delta_o}{delta\_o(\text{e},s,r20)} *\href{#PRE}{PRE(s,r20)} +\href{#delta_o}{delta\_o(\text{m},s,r20)} *\href{#POI}{POI(s,r20)} -\href{#delta_o}{delta\_o(\text{l},s,r20)} *\href{#SHL}{SHL(r20,s)} -\href{#delta_o}{delta\_o(\text{k},s,r20)} *\href{#SHK}{SHK(s,r20)} -\href{#delta_o}{delta\_o(\text{e},s,r20)} *\href{#SHEF}{SHEF(s,r20)})} +\frac{{({(1-\href{#cd_o}{cd\_o(s,r20)})} *ln{ \left( \href{#delta_o}{delta\_o(\text{k},s,r20)} *exp{ \left( \href{#PRK}{PRK(s,r20)}-\href{#SHK}{SHK(s,r20)}\right) } ^{(1-\href{#sigma_o}{sigma\_o(s,r20)})} +\href{#delta_o}{delta\_o(\text{l},s,r20)} *exp{ \left( \href{#WAG}{WAG(s,r20)}-\href{#SHL}{SHL(r20,s)}\right) } ^{(1-\href{#sigma_o}{sigma\_o(s,r20)})} +\href{#delta_o}{delta\_o(\text{e},s,r20)} *exp{ \left( \href{#PRE}{PRE(s,r20)}-\href{#SHEF}{SHEF(s,r20)}\right) } ^{(1-\href{#sigma_o}{sigma\_o(s,r20)})} +\href{#delta_o}{delta\_o(\text{m},s,r20)} *exp{ \left(\href{#POI}{POI(s,r20)}\right) } ^{(1-\href{#sigma_o}{sigma\_o(s,r20)})}\right) })}}{{(1 -\href{#sigma_o}{sigma\_o(s,r20)}*{(1-\href{#cd_o}{cd\_o(s,r20)})})}} -\href{#SHY}{SHY(s,r20)} \]
Equation 32: PRII
For r20 in regions (20 total):
\[ \href{#PRII}{PRII(r20)} = \href{#cd_oR}{cd\_oR(r20)} *{(\href{#delta_oR}{delta\_oR(\text{k},r20)} *\href{#PRKY}{PRKY(r20)} +\href{#delta_oR}{delta\_oR(\text{l},r20)} *\href{#WAGE}{WAGE(r20)} +\href{#delta_oR}{delta\_oR(\text{e},r20)} *\href{#PRIE}{PRIE(r20)} +\href{#delta_oR}{delta\_oR(\text{m},r20)} *\href{#PROI}{PROI(r20)} -\href{#delta_oR}{delta\_oR(\text{l},r20)} *\href{#SHLY}{SHLY(r20)})} +\frac{{({(1-\href{#cd_oR}{cd\_oR(r20)})} *ln{ \left( \href{#delta_oR}{delta\_oR(\text{k},r20)} *exp{ \left(\href{#PRKY}{PRKY(r20)}\right) } ^{(1-\href{#sigma_oR}{sigma\_oR(r20)})} +\href{#delta_oR}{delta\_oR(\text{l},r20)} *exp{ \left( \href{#WAGE}{WAGE(r20)}-\href{#SHLY}{SHLY(r20)}\right) } ^{(1-\href{#sigma_oR}{sigma\_oR(r20)})} +\href{#delta_oR}{delta\_oR(\text{e},r20)} *exp{ \left(\href{#PRIE}{PRIE(r20)}\right) } ^{(1-\href{#sigma_oR}{sigma\_oR(r20)})} +\href{#delta_oR}{delta\_oR(\text{m},r20)} *exp{ \left(\href{#PROI}{PROI(r20)}\right) } ^{(1-\href{#sigma_oR}{sigma\_oR(r20)})}\right) })}}{{(1 -\href{#sigma_oR}{sigma\_oR(r20)}*{(1-\href{#cd_oR}{cd\_oR(r20)})})}} -\href{#SHYY}{SHYY(r20)} \]
Equation 33: PRK
For r20 in regions, s in sec_std (240 total):
\[ \href{#PRK}{PRK(s,r20)} = \href{#PRP}{PRP(s,r20)} +\frac{ln{ \left( \frac{{(\href{#delta_o}{delta\_o(\text{k},s,r20)} *\href{#OUP}{OUP(s,r20)})}}{\href{#CAP}{CAP(s,r20)}}\right) }}{\href{#sigma_o}{sigma\_o(s,r20)}} +\frac{{({(\href{#SHY}{SHY(s,r20)}+\href{#SHK}{SHK(s,r20)})} *{(\href{#sigma_o}{sigma\_o(s,r20)}-1)})}}{\href{#sigma_o}{sigma\_o(s,r20)}} \]
Equation 34: PRKY
For r20 in regions (20 total):
\[ \href{#PRKY}{PRKY(r20)} = \href{#PRII}{PRII(r20)} +\frac{ln{ \left( \frac{{(\href{#delta_oR}{delta\_oR(\text{k},r20)} *\href{#INVT}{INVT(r20)})}}{\href{#CAPY}{CAPY(r20)}}\right) }}{\href{#sigma_oR}{sigma\_oR(r20)}} +\frac{{(\href{#SHYY}{SHYY(r20)}*{(\href{#sigma_oR}{sigma\_oR(r20)}-1)})}}{\href{#sigma_oR}{sigma\_oR(r20)}} \]
Equation 35: PRKZ
For r20 in regions (20 total):
\[ \href{#PRKZ}{PRKZ(r20)} = \href{#PRCT}{PRCT(r20)} +\frac{ln{ \left( \frac{{(\href{#delta_oH}{delta\_oH(\text{k},r20)} *\href{#CONP}{CONP(r20)})}}{\href{#CAPZ}{CAPZ(r20)}}\right) }}{\href{#sigma_oH}{sigma\_oH(r20)}} +\frac{{(\href{#SHYZ}{SHYZ(r20)}*{(\href{#sigma_oH}{sigma\_oH(r20)}-1)})}}{\href{#sigma_oH}{sigma\_oH(r20)}} \]
Equation 36: WAGE
For r20 in regions (20 total):
\[ lead({\href{#WAGE}{WAGE(r20)}}) = \href{#WAGE}{WAGE(r20)} +\href{#wage_p}{wage\_p(r20)} *{(lead({\href{#PRCT}{PRCT(r20)}})+\href{#PRXX}{PRXX(r20)} -\href{#PRCT}{PRCT(r20)})} +{(1-\href{#wage_p}{wage\_p(r20)})} *{(\href{#PRCT}{PRCT(r20)}-\href{#PRCL}{PRCL(r20)})} +\href{#wage_q}{wage\_q(r20)} *{(ln{ \left(\href{#LABO}{LABO(r20)}\right) } -ln{ \left(\href{#LABX}{LABX(r20)}\right) })} \]
Equation 37: WAGG
For r20 in regions (20 total):
\[ \href{#WAGG}{WAGG(r20)} = \href{#WAGE}{WAGE(r20)} \]
Equation 38: WAG
For r20 in regions, s in sec_std (240 total):
\[ \href{#WAG}{WAG(s,r20)} = \href{#WAGE}{WAGE(r20)} \]
Equation 39: CAP
For r20 in regions, s in sec_std (240 total):
\[ lead({\href{#CAP}{CAP(s,r20)}}) = \href{#JNV}{JNV(s,r20)} +{(1-\href{#delta}{delta(r20)}-\href{#labgrow}{labgrow(r20)})} *\href{#CAP}{CAP(s,r20)} \]
Equation 40: CAPY
For r20 in regions (20 total):
\[ lead({\href{#CAPY}{CAPY(r20)}}) = \href{#JNVY}{JNVY(r20)} +{(1-\href{#delta}{delta(r20)}-\href{#labgrow}{labgrow(r20)})} *\href{#CAPY}{CAPY(r20)} \]
Equation 41: CAPZ
For r20 in regions (20 total):
\[ lead({\href{#CAPZ}{CAPZ(r20)}}) = \href{#JNVZ}{JNVZ(r20)} +{(1-\href{#delta}{delta(r20)}-\href{#labgrow}{labgrow(r20)})} *\href{#CAPZ}{CAPZ(r20)} \]
Equation 42: INV
For r20 in regions, s in sec_std (240 total):
\[ \href{#INV}{INV(s,r20)} = \frac{{({(1+.5*{(\href{#TOB}{TOB(s,r20)}-1)})}*{(\href{#TOB}{TOB(s,r20)}-1)} *\href{#CAP}{CAP(s,r20)})}}{\href{#phi}{phi(s,r20)}} *\href{#forei}{forei(s,r20)} +\frac{{({(1+.5*{(\href{#TPA}{TPA(s,r20)}-1)})}*{(\href{#TPA}{TPA(s,r20)}-1)} *\href{#CAP}{CAP(s,r20)})}}{\href{#phi}{phi(s,r20)}} *{(1-\href{#forei}{forei(s,r20)})} +\href{#SHKI}{SHKI(r20,s)} \]
Equation 43: JNV
For r20 in regions, s in sec_std (240 total):
\[ \href{#JNV}{JNV(s,r20)} = \frac{{(\href{#INV}{INV(s,r20)} +\frac{\href{#phi}{phi(s,r20)}}{2}*\href{#base_jk}{base\_jk(s,r20)}^2 *\href{#CAP}{CAP(s,r20)})}}{{(1 +\href{#phi}{phi(s,r20)}*\href{#base_jk}{base\_jk(s,r20)})}} \]
Equation 44: INVY
For r20 in regions (20 total):
\[ \href{#INVY}{INVY(r20)} = \href{#JNVY}{JNVY(r20)} *{(1 +\frac{{(\frac{\href{#phi_y}{phi\_y(r20)}}{2}*\href{#JNVY}{JNVY(r20)})}}{\href{#CAPY}{CAPY(r20)}})} \]
Equation 45: INVZ
For r20 in regions (20 total):
\[ \href{#INVZ}{INVZ(r20)} = \href{#JNVZ}{JNVZ(r20)} *{(1 +\frac{{(\frac{\href{#phi_z}{phi\_z(r20)}}{2}*\href{#JNVZ}{JNVZ(r20)})}}{\href{#CAPZ}{CAPZ(r20)}})} \]
Equation 46: JNVY
For r20 in regions (20 total):
\[ \href{#JNVY}{JNVY(r20)} = \frac{{(\href{#CAPY}{CAPY(r20)} *{(\href{#fore_i_y}{fore\_i\_y(r20)}*\href{#TOBY}{TOBY(r20)} +{(1-\href{#fore_i_y}{fore\_i\_y(r20)})}*\href{#TPAY}{TPAY(r20)} -1)})}}{\href{#phi_y}{phi\_y(r20)}} \]
Equation 47: JNVZ
For r20 in regions (20 total):
\[ \href{#JNVZ}{JNVZ(r20)} = \frac{{(\href{#CAPZ}{CAPZ(r20)} *{(\href{#fore_i_z}{fore\_i\_z(r20)}*\href{#TOBZ}{TOBZ(r20)} +{(1-\href{#fore_i_z}{fore\_i\_z(r20)})}*\href{#TPAZ}{TPAZ(r20)} -1)})}}{\href{#phi_z}{phi\_z(r20)}} \]
Equation 48: LAM
For r20 in regions, s in sec_std (240 total):
\[ lead({\href{#LAM}{LAM(s,r20)}}) = {(1+\href{#INTR}{INTR(r20)}+\href{#RISE}{RISE(s,r20)} +\href{#delta}{delta(r20)})} *\href{#LAM}{LAM(s,r20)} -{(1-\href{#TCOR}{TCOR(r20)})} *exp{ \left( \href{#PRK}{PRK(s,r20)}-\href{#PRID}{PRID(r20)}\right) } -{(1-\href{#TITC}{TITC(s,r20)})} *exp{ \left( \href{#PRII}{PRII(r20)}-\href{#PRID}{PRID(r20)}\right) } *\frac{\href{#phi}{phi(s,r20)}}{2} *\frac{\href{#JNV}{JNV(s,r20)}}{\href{#CAP}{CAP(s,r20)}} ^2 \]
Equation 49: LAMY
For r20 in regions (20 total):
\[ lead({\href{#LAMY}{LAMY(r20)}}) = {(1+\href{#INTR}{INTR(r20)}+\href{#RISY}{RISY(r20)} +\href{#delta}{delta(r20)})} *\href{#LAMY}{LAMY(r20)} -{(1-\href{#TCOR}{TCOR(r20)})} *exp{ \left( \href{#PRKY}{PRKY(r20)}-\href{#PRID}{PRID(r20)}\right) } -exp{ \left( \href{#PRII}{PRII(r20)}-\href{#PRID}{PRID(r20)}\right) } *\frac{\href{#phi_y}{phi\_y(r20)}}{2} *\frac{\href{#JNVY}{JNVY(r20)}}{\href{#CAPY}{CAPY(r20)}} ^2 \]
Equation 50: LAMZ
For r20 in regions (20 total):
\[ lead({\href{#LAMZ}{LAMZ(r20)}}) = {(1+\href{#INTR}{INTR(r20)}+\href{#RISZ}{RISZ(r20)} +\href{#delta}{delta(r20)})} *\href{#LAMZ}{LAMZ(r20)} -exp{ \left( \href{#PRKZ}{PRKZ(r20)}-\href{#PRID}{PRID(r20)}\right) } -{(1-\href{#TITCH}{TITCH(r20)})} *exp{ \left( \href{#PRII}{PRII(r20)}-\href{#PRID}{PRID(r20)}\right) } *\frac{\href{#phi_z}{phi\_z(r20)}}{2} *\frac{\href{#JNVZ}{JNVZ(r20)}}{\href{#CAPZ}{CAPZ(r20)}} ^2 \]
Equation 51: TOB
For r20 in regions, s in sec_std (240 total):
\[ \href{#TOB}{TOB(s,r20)} = \frac{{(\href{#LAM}{LAM(s,r20)} *exp{ \left( \href{#PRID}{PRID(r20)}-\href{#PRII}{PRII(r20)}\right) })}}{{(1-\href{#TITC}{TITC(s,r20)})}} \]
Equation 52: TOBY
For r20 in regions (20 total):
\[ \href{#TOBY}{TOBY(r20)} = \href{#LAMY}{LAMY(r20)} *exp{ \left( \href{#PRID}{PRID(r20)}-\href{#PRII}{PRII(r20)}\right) } \]
Equation 53: TOBZ
For r20 in regions (20 total):
\[ \href{#TOBZ}{TOBZ(r20)} = \frac{{(\href{#LAMZ}{LAMZ(r20)} *exp{ \left( \href{#PRID}{PRID(r20)}-\href{#PRII}{PRII(r20)}\right) })}}{{(1-\href{#TITCH}{TITCH(r20)})}} \]
Equation 54: TPA
For r20 in regions, s in sec_std (240 total):
\[ lead({\href{#TPA}{TPA(s,r20)}}) = \href{#TPA}{TPA(s,r20)} +\href{#adapt}{adapt(r20)} *{(\href{#TOB}{TOB(s,r20)}-\href{#TPA}{TPA(s,r20)})} \]
Equation 55: TPAY
For r20 in regions (20 total):
\[ lead({\href{#TPAY}{TPAY(r20)}}) = \href{#TPAY}{TPAY(r20)} +\href{#adapt}{adapt(r20)} *{(\href{#TOBY}{TOBY(r20)}-\href{#TPAY}{TPAY(r20)})} \]
Equation 56: TPAZ
For r20 in regions (20 total):
\[ lead({\href{#TPAZ}{TPAZ(r20)}}) = \href{#TPAZ}{TPAZ(r20)} +\href{#adapt}{adapt(r20)} *{(\href{#TOBZ}{TOBZ(r20)}-\href{#TPAZ}{TPAZ(r20)})} \]
Equation 57: PRF
For r20 in regions, s in sec_std (240 total):
\[ \href{#PRF}{PRF(s,r20)} = \frac{{(\href{#OUP}{OUP(s,r20)} *exp{ \left(\href{#PRP}{PRP(s,r20)}\right) } -\href{#ENT}{ENT(s,r20)} *exp{ \left(\href{#PRE}{PRE(s,r20)}\right) } -\href{#LAB}{LAB(s,r20)} *exp{ \left(\href{#WAG}{WAG(s,r20)}\right) } -\href{#OIN}{OIN(s,r20)} *exp{ \left(\href{#POI}{POI(s,r20)}\right) } -{(1-\href{#TITC}{TITC(s,r20)})}*\href{#INV}{INV(s,r20)} *exp{ \left(\href{#PRII}{PRII(r20)}\right) })}}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 58: PRFY
For r20 in regions (20 total):
\[ \href{#PRFY}{PRFY(r20)} = \frac{{(\href{#INVT}{INVT(r20)} *exp{ \left(\href{#PRII}{PRII(r20)}\right) } -\href{#IITE}{IITE(r20)} *exp{ \left(\href{#PRIE}{PRIE(r20)}\right) } -\href{#IITL}{IITL(r20)} *exp{ \left(\href{#WAGE}{WAGE(r20)}\right) } -\href{#IITO}{IITO(r20)} *exp{ \left(\href{#PROI}{PROI(r20)}\right) } -\href{#INVY}{INVY(r20)} *exp{ \left(\href{#PRII}{PRII(r20)}\right) })}}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 59: PRFZ
For r20 in regions (20 total):
\[ \href{#PRFZ}{PRFZ(r20)} = \frac{{(\href{#CONP}{CONP(r20)} *exp{ \left(\href{#PRCT}{PRCT(r20)}\right) } -\href{#CNPE}{CNPE(r20)} *exp{ \left(\href{#PRCE}{PRCE(r20)}\right) } -\href{#CNPL}{CNPL(r20)} *exp{ \left(\href{#WAGE}{WAGE(r20)}\right) } -\href{#CNPO}{CNPO(r20)} *exp{ \left(\href{#PRCO}{PRCO(r20)}\right) } -{(1-\href{#TITCH}{TITCH(r20)})}*\href{#INVZ}{INVZ(r20)} *exp{ \left(\href{#PRII}{PRII(r20)}\right) })}}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 60: PRFT
For r20 in regions (20 total):
\[ \href{#PRFT}{PRFT(r20)} = \sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#PRF}{PRF(s,r20)}\right) } +\href{#PRFY}{PRFY(r20)} \]
Equation 61: STM
For r20 in regions, s in sec_std (240 total):
\[ \href{#STM}{STM(s,r20)} = \frac{{(\href{#LAM}{LAM(s,r20)}*\href{#CAP}{CAP(s,r20)})}}{{(1-\href{#TITC}{TITC(s,r20)})}} \]
Equation 62: STMT
For r20 in regions (20 total):
\[ \href{#STMT}{STMT(r20)} = \sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#STM}{STM(s,r20)}\right) } \]
Equation 63: INVP
For r20 in regions (20 total):
\[ \href{#INVP}{INVP(r20)} = \sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#INV}{INV(s,r20)}\right) } \]
Equation 64: INVT
For r20 in regions (20 total):
\[ \href{#INVT}{INVT(r20)} = \href{#INVY}{INVY(r20)}+\href{#INVZ}{INVZ(r20)} +\href{#INVP}{INVP(r20)} \]
Equation 65: PRID
For r20 in regions (20 total):
\[ \href{#PRID}{PRID(r20)} = \sum_{g12 \; \text{in} \; \href{#goods}{goods}} { \left(\href{#prid_weight}{prid\_weight(g12,r20)} *\href{#PRD}{PRD(g12,r20)}\right) } \]
Equation 66: PRIX
For r20 in regions (20 total):
\[ \href{#PRIX}{PRIX(r20)} = \sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#prix_weight}{prix\_weight(g16,r20)} *\href{#PRX}{PRX(g16,r20)}\right) } \]
Equation 67: OUTP
For r20 in regions (20 total):
\[ \href{#OUTP}{OUTP(r20)} = \frac{\sum_{g12 \; \text{in} \; \href{#goods}{goods}} { \left(exp{ \left(\href{#PRD}{PRD(g12,r20)}\right) } *\href{#OUG}{OUG(g12,r20)}\right) }}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 68: OUTL
For r20 in regions (20 total):
\[ lead({\href{#OUTL}{OUTL(r20)}}) = \href{#OUTP}{OUTP(r20)} \]
Equation 69: INCM
For r20 in regions (20 total):
\[ \href{#INCM}{INCM(r20)} = \href{#TRAN}{TRAN(r20)}-\href{#TAXL}{TAXL(r20)} +\href{#INTR}{INTR(r20)}*\href{#BOND}{BOND(r20)} +\frac{\href{#IRAS}{IRAS(r20)}}{exp{ \left(\href{#REXN}{REXN(r20)}\right) }} +\href{#PRFZ}{PRFZ(r20)} +{(1-\href{#TCOR}{TCOR(r20)})}*\href{#PRFT}{PRFT(r20)} +\frac{{({(1-\href{#TINC}{TINC(r20)})} *{(exp{ \left(\href{#WAGE}{WAGE(r20)}\right) } *{(\href{#IITL}{IITL(r20)}+\href{#CNPL}{CNPL(r20)})} +exp{ \left(\href{#WAGG}{WAGG(r20)}\right) } *\href{#GOVL}{GOVL(r20)} +\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(exp{ \left(\href{#WAG}{WAG(s,r20)}\right) } *\href{#LAB}{LAB(s,r20)}\right) })})}}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 70: CONP
For r20 in regions (20 total):
\[ \href{#CONP}{CONP(r20)} = \href{#fore_c}{fore\_c(r20)} *{(\href{#timepref}{timepref(r20)}+\href{#RISW}{RISW(r20)})} *\href{#WELT}{WELT(r20)} *exp{ \left( \href{#PRID}{PRID(r20)}-\href{#PRCT}{PRCT(r20)}\right) } +{(1-\href{#fore_c}{fore\_c(r20)})}*\href{#mpc}{mpc(r20)} *\href{#INCM}{INCM(r20)} *exp{ \left( \href{#PRID}{PRID(r20)}-\href{#PRCT}{PRCT(r20)}\right) } +\href{#SHKC}{SHKC(r20)} \]
Equation 71: IRAS
For o2 in owner (20 total):
\[ \href{#IRAS}{IRAS(o2)} = \sum_{c \; \text{in} \; \href{#currency}{currency}} { \left(\href{#INTR}{INTR(c)} *exp{ \left(\href{#REXN}{REXN(c)}\right) } *\href{#ASSE}{ASSE(c,o2)}\right) } \]
Equation 72: INAS
For o2 in owner (20 total):
\[ \href{#INAS}{INAS(o2)} = \sum_{c \; \text{in} \; \href{#currency}{currency}} { \left(\href{#INTN}{INTN(c)} *exp{ \left(\href{#REXN}{REXN(c)}\right) } *\href{#ASSE}{ASSE(c,o2)}\right) } \]
Equation 73: CNPL
For r20 in regions (20 total):
\[ \href{#CNPL}{CNPL(r20)} = exp{ \left( \href{#SHLZ}{SHLZ(r20)}+\href{#SHYZ}{SHYZ(r20)}\right) } ^{(\href{#sigma_oH}{sigma\_oH(r20)}-1)} *\href{#delta_oH}{delta\_oH(\text{l},r20)} *\href{#CONP}{CONP(r20)} *exp{ \left( \href{#PRCT}{PRCT(r20)}-\href{#WAGE}{WAGE(r20)}\right) } ^\href{#sigma_oH}{sigma\_oH(r20)} \]
Equation 74: CNPE
For r20 in regions (20 total):
\[ \href{#CNPE}{CNPE(r20)} = exp{ \left( \href{#SHEFC}{SHEFC(r20)}+\href{#SHYZ}{SHYZ(r20)}\right) } ^{(\href{#sigma_oH}{sigma\_oH(r20)}-1)} *\href{#delta_oH}{delta\_oH(\text{e},r20)} *\href{#CONP}{CONP(r20)} *exp{ \left( \href{#PRCT}{PRCT(r20)}-\href{#PRCE}{PRCE(r20)}\right) } ^\href{#sigma_oH}{sigma\_oH(r20)} \]
Equation 75: CNPO
For r20 in regions (20 total):
\[ \href{#CNPO}{CNPO(r20)} = exp{ \left(\href{#SHYZ}{SHYZ(r20)}\right) } ^{(\href{#sigma_oH}{sigma\_oH(r20)}-1)} *\href{#delta_oH}{delta\_oH(\text{m},r20)} *\href{#CONP}{CONP(r20)} *exp{ \left( \href{#PRCT}{PRCT(r20)}-\href{#PRCO}{PRCO(r20)}\right) } ^\href{#sigma_oH}{sigma\_oH(r20)} \]
Equation 76: CNPK
For r20 in regions (20 total):
\[ \href{#CNPK}{CNPK(r20)} = exp{ \left(\href{#SHYZ}{SHYZ(r20)}\right) } ^{(\href{#sigma_oH}{sigma\_oH(r20)}-1)} *\href{#delta_oH}{delta\_oH(\text{k},r20)} *\href{#CONP}{CONP(r20)} *exp{ \left( \href{#PRCT}{PRCT(r20)}-\href{#PRKZ}{PRKZ(r20)}\right) } ^\href{#sigma_oH}{sigma\_oH(r20)} \]
Equation 77: PRCT
For r20 in regions (20 total):
\[ \href{#PRCT}{PRCT(r20)} = \href{#cd_oH}{cd\_oH(r20)} *{(\href{#delta_oH}{delta\_oH(\text{k},r20)} *\href{#PRKZ}{PRKZ(r20)} +\href{#delta_oH}{delta\_oH(\text{l},r20)} *\href{#WAGE}{WAGE(r20)} +\href{#delta_oH}{delta\_oH(\text{e},r20)} *\href{#PRCE}{PRCE(r20)} +\href{#delta_oH}{delta\_oH(\text{m},r20)} *\href{#PRCO}{PRCO(r20)} -\href{#delta_oH}{delta\_oH(\text{l},r20)} *\href{#SHLZ}{SHLZ(r20)} -\href{#delta_oH}{delta\_oH(\text{e},r20)} *\href{#SHEFC}{SHEFC(r20)})} +\frac{{({(1-\href{#cd_oH}{cd\_oH(r20)})} *ln{ \left( \href{#delta_oH}{delta\_oH(\text{k},r20)} *exp{ \left(\href{#PRKZ}{PRKZ(r20)}\right) } ^{(1-\href{#sigma_oH}{sigma\_oH(r20)})} +\href{#delta_oH}{delta\_oH(\text{l},r20)} *exp{ \left( \href{#WAGE}{WAGE(r20)}-\href{#SHLZ}{SHLZ(r20)}\right) } ^{(1-\href{#sigma_oH}{sigma\_oH(r20)})} +\href{#delta_oH}{delta\_oH(\text{e},r20)} *exp{ \left( \href{#PRCE}{PRCE(r20)}-\href{#SHEFC}{SHEFC(r20)}\right) } ^{(1-\href{#sigma_oH}{sigma\_oH(r20)})} +\href{#delta_oH}{delta\_oH(\text{m},r20)} *exp{ \left(\href{#PRCO}{PRCO(r20)}\right) } ^{(1-\href{#sigma_oH}{sigma\_oH(r20)})}\right) })}}{{(1 -\href{#sigma_oH}{sigma\_oH(r20)}*{(1-\href{#cd_oH}{cd\_oH(r20)})})}} -\href{#SHYZ}{SHYZ(r20)} \]
Equation 78: PRGT
For r20 in regions (20 total):
\[ \href{#PRGT}{PRGT(r20)} = \frac{\href{#delta_oG}{delta\_oG(\text{e},r20)}}{{(\href{#delta_oG}{delta\_oG(\text{e},r20)} +\href{#delta_oG}{delta\_oG(\text{m},r20)})}} *\sum_{g13 \; \text{in} \; \href{#goods_e}{goods\_e}} { \left(\href{#delta_eG}{delta\_eG(g13,r20)}*\href{#PRY}{PRY(g13,r20)}\right) } +\frac{\href{#delta_oG}{delta\_oG(\text{m},r20)}}{{(\href{#delta_oG}{delta\_oG(\text{e},r20)} +\href{#delta_oG}{delta\_oG(\text{m},r20)})}} *\sum_{g14 \; \text{in} \; \href{#goods_m}{goods\_m}} { \left(\href{#delta_mG}{delta\_mG(g14,r20)}*\href{#PRY}{PRY(g14,r20)}\right) } \]
Equation 79: MONE
For r20 in regions (20 total):
\[ \href{#MONE}{MONE(r20)} = \href{#PRID}{PRID(r20)} +ln{ \left(\href{#OUTP}{OUTP(r20)}\right) } +\href{#int_elast}{int\_elast(r20)}*\href{#INTN}{INTN(r20)} +\href{#SHKM}{SHKM(r20)} \]
Equation 80: INTF
For r20 in regions (20 total):
\[ \href{#INTF}{INTF(r20)} = \href{#INTN}{INTN(r20)}-lead({\href{#PRID}{PRID(r20)}}) +\href{#PRID}{PRID(r20)} \]
Equation 81: INTR
For r20 in regions (20 total):
\[ \href{#INTR}{INTR(r20)} = \href{#INTF}{INTF(r20)}+\href{#RISR}{RISR(r20)} \]
Equation 82: INFP
For r20 in regions (20 total):
\[ \href{#INFP}{INFP(r20)} = \href{#PRID}{PRID(r20)}-\href{#PRDL}{PRDL(r20)} \]
Equation 83: PRCL
For r20 in regions (20 total):
\[ lead({\href{#PRCL}{PRCL(r20)}}) = \href{#PRCT}{PRCT(r20)} \]
Equation 84: PRDL
For r20 in regions (20 total):
\[ lead({\href{#PRDL}{PRDL(r20)}}) = \href{#PRID}{PRID(r20)} \]
Equation 85: GDPN
For r20 in regions (20 total):
\[ \href{#GDPN}{GDPN(r20)} = exp{ \left(\href{#PRCT}{PRCT(r20)}\right) } *\href{#CONP}{CONP(r20)} +exp{ \left(\href{#PRGT}{PRGT(r20)}\right) } *\href{#GCET}{GCET(r20)} +exp{ \left(\href{#PRII}{PRII(r20)}\right) } *\href{#INVT}{INVT(r20)} +exp{ \left(\href{#PRID}{PRID(r20)}\right) } *\href{#TBAL}{TBAL(r20)} +\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(exp{ \left(\href{#PRII}{PRII(r20)}\right) } *\href{#INS}{INS(r20,g16)}\right) } \]
Equation 86: GDPR
For r20 in regions (20 total):
\[ \href{#GDPR}{GDPR(r20)} = \href{#CONP}{CONP(r20)}+\href{#GCET}{GCET(r20)} +\href{#INVT}{INVT(r20)} +\href{#TBAL}{TBAL(r20)} +\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#INS}{INS(r20,g16)}\right) } \]
Equation 87: PGDP
For r20 in regions (20 total):
\[ \href{#PGDP}{PGDP(r20)} = ln{ \left(\href{#GDPN}{GDPN(r20)}\right) } -ln{ \left(\href{#GDPR}{GDPR(r20)}\right) } \]
Equation 88: GNPR
For r20 in regions (20 total):
\[ \href{#GNPR}{GNPR(r20)} = \href{#GDPR}{GDPR(r20)} +\frac{{(\href{#PBAL}{PBAL(r20)}+\href{#IRAS}{IRAS(r20)})}}{exp{ \left(\href{#REXN}{REXN(r20)}\right) }} \]
Equation 89: CURN
For r20 in regions (20 total):
\[ \href{#CURN}{CURN(r20)} = \href{#TBAL}{TBAL(r20)} +\frac{{(\href{#PBAL}{PBAL(r20)}+\href{#INAS}{INAS(r20)})}}{exp{ \left(\href{#REXN}{REXN(r20)}\right) }} \]
Equation 90: CURR
For r20 in regions (20 total):
\[ \href{#CURR}{CURR(r20)} = \href{#TBAU}{TBAU(r20)}+\href{#PBAL}{PBAL(r20)} +\href{#IRAS}{IRAS(r20)} \]
Equation 91: WELT
For r20 in regions (20 total):
\[ \href{#WELT}{WELT(r20)} = \href{#BOND}{BOND(r20)} +\frac{\href{#ASSU}{ASSU(r20)}}{exp{ \left(\href{#REXN}{REXN(r20)}\right) }} +\frac{{(\href{#mongdp}{mongdp(r20)} *exp{ \left(\href{#MONE}{MONE(r20)}\right) })}}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} +\href{#WELH}{WELH(r20)} +\href{#LAMY}{LAMY(r20)}*\href{#CAPY}{CAPY(r20)} +\href{#LAMZ}{LAMZ(r20)}*\href{#CAPZ}{CAPZ(r20)} +\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#STM}{STM(s,r20)}\right) } \]
Equation 92: WELH
For r20 in regions (20 total):
\[ lead({\href{#WELH}{WELH(r20)}}) = {(1+\href{#RISW}{RISW(r20)}+\href{#RISH}{RISH(r20)} +\href{#INTR}{INTR(r20)} -\href{#labgrow}{labgrow(r20)})} *\href{#WELH}{WELH(r20)} -\href{#TRAN}{TRAN(r20)} +\href{#TAXH}{TAXH(r20)} +\href{#TAXL}{TAXL(r20)} -\frac{{(exp{ \left(\href{#WAGE}{WAGE(r20)}\right) } *{(\href{#IITL}{IITL(r20)}+\href{#CNPL}{CNPL(r20)})} +exp{ \left(\href{#WAGG}{WAGG(r20)}\right) } *\href{#GOVL}{GOVL(r20)} +\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(exp{ \left(\href{#WAG}{WAG(s,r20)}\right) } *\href{#LAB}{LAB(s,r20)}\right) })}}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 93: SAVI
For r20 in regions (20 total):
\[ \href{#SAVI}{SAVI(r20)} = \href{#INVT}{INVT(r20)} *exp{ \left( \href{#PRII}{PRII(r20)}-\href{#PRID}{PRID(r20)}\right) } +\frac{\href{#CURR}{CURR(r20)}}{exp{ \left(\href{#REXN}{REXN(r20)}\right) }} +\href{#DEFI}{DEFI(r20)} \]
Equation 94: SAVN
For r20 in regions (20 total):
\[ \href{#SAVN}{SAVN(r20)} = \href{#INVT}{INVT(r20)} *exp{ \left( \href{#PRII}{PRII(r20)}-\href{#PRID}{PRID(r20)}\right) } +\href{#CURN}{CURN(r20)} +\href{#DEFN}{DEFN(r20)} \]
Equation 95: SAVT
For r20 in regions (20 total):
\[ \href{#SAVT}{SAVT(r20)} = \href{#INVT}{INVT(r20)} *exp{ \left( \href{#PRII}{PRII(r20)}-\href{#PRID}{PRID(r20)}\right) } +\href{#CURN}{CURN(r20)} \]
Equation 96: TBAL
For r20 in regions (20 total):
\[ \href{#TBAL}{TBAL(r20)} = \href{#EXQT}{EXQT(r20)}-\href{#IMQT}{IMQT(r20)} \]
Equation 97: TBAU
For r20 in regions (20 total):
\[ \href{#TBAU}{TBAU(r20)} = \href{#TBAL}{TBAL(r20)} *exp{ \left(\href{#REXN}{REXN(r20)}\right) } \]
Equation 98: EXCH
For n1 in notUSA (19 total):
\[ \href{#EXCH}{EXCH(n1)} = \href{#REXN}{REXN(n1)}-\href{#PRID}{PRID(n1)} +\href{#PRID}{PRID(\text{USA})} \]
Equation 99: EXCL
For r20 in regions (20 total):
\[ lead({\href{#EXCL}{EXCL(r20)}}) = \href{#EXCH}{EXCH(r20)} \]
Equation 100: REXC
For r20 in regions (20 total):
\[ lead({\href{#REXC}{REXC(r20)}}) = \href{#REXC}{REXC(r20)}-\href{#INTR}{INTR(r20)} +\href{#INTR}{INTR(\text{USA})} +\href{#EXCR}{EXCR(r20)} \]
Equation 101: NEER
For d in dest (20 total):
\[ \href{#NEER}{NEER(d)} = {( -\sum_{o1 \; \text{in} \; \href{#orig}{orig}} { \left(\href{#eer_weight}{eer\_weight(d,o1)} *{(\href{#EXCH}{EXCH(o1)}-\href{#EXCH}{EXCH(d)})}\right) })} \]
Equation 102: REER
For d in dest (20 total):
\[ \href{#REER}{REER(d)} = {( -\sum_{o1 \; \text{in} \; \href{#orig}{orig}} { \left(\href{#eer_weight}{eer\_weight(d,o1)} *{(\href{#REXN}{REXN(o1)}-\href{#REXN}{REXN(d)})}\right) })} \]
Equation 103: ABUY
For o2 in owner (20 total):
\[ \href{#ABUY}{ABUY(o2)} = \sum_{a \; \text{in} \; \href{#abroad}{abroad}} { \left(\href{#ainv}{ainv(o2,a)}*\href{#CURR}{CURR(a)}\right) } \]
Equation 104: ASSE
For c in currency, o2 in owner (400 total):
\[ lead({\href{#ASSE}{ASSE(c,o2)}}) = \href{#ASSE}{ASSE(c,o2)}*{(1-\href{#labgrow}{labgrow(o2)})} +\frac{{(\href{#ashr}{ashr(c,o2)}*\href{#ABUY}{ABUY(o2)} +\href{#aeye}{aeye(c,o2)} *{(\href{#CURR}{CURR(o2)}-\href{#ABUY}{ABUY(o2)})})}}{exp{ \left(\href{#REXN}{REXN(c)}\right) }} \]
Equation 105: ASSU
For o2 in owner (20 total):
\[ \href{#ASSU}{ASSU(o2)} = \sum_{c \; \text{in} \; \href{#currency}{currency}} { \left(exp{ \left(\href{#REXN}{REXN(c)}\right) } *\href{#ASSE}{ASSE(c,o2)}\right) } \]
Equation 106: EYGR
For r20 in regions (20 total):
\[ \href{#EYGR}{EYGR(r20)} = ln{ \left(lead({\href{#OUTP}{OUTP(r20)}})\right) } -ln{ \left(\href{#OUTP}{OUTP(r20)}\right) } \]
Equation 107: EPRC
For r20 in regions (20 total):
\[ \href{#EPRC}{EPRC(r20)} = lead({\href{#PRCT}{PRCT(r20)}})-\href{#PRCT}{PRCT(r20)} \]
Equation 108: INFL
For r20 in regions (20 total):
\[ \href{#INFL}{INFL(r20)} = \href{#PRCT}{PRCT(r20)}-\href{#PRCL}{PRCL(r20)} \]
Equation 109: PRCOL
For r20 in regions (20 total):
\[ lead({\href{#PRCOL}{PRCOL(r20)}}) = \href{#PRCO}{PRCO(r20)} \]
Equation 110: INFCL
For r20 in regions (20 total):
\[ \href{#INFCL}{INFCL(r20)} = \href{#PRCO}{PRCO(r20)}-\href{#PRCOL}{PRCOL(r20)} \]
Equation 111: GNEN
For r20 in regions (20 total):
\[ \href{#GNEN}{GNEN(r20)} = exp{ \left(\href{#PRCT}{PRCT(r20)}\right) } *\href{#CONP}{CONP(r20)} +exp{ \left(\href{#PRID}{PRID(r20)}\right) } *\href{#GCET}{GCET(r20)} +exp{ \left(\href{#PRII}{PRII(r20)}\right) } *\href{#INVT}{INVT(r20)} +\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(exp{ \left(\href{#PRII}{PRII(r20)}\right) } *\href{#INS}{INS(r20,g16)}\right) } \]
Equation 112: GNER
For r20 in regions (20 total):
\[ \href{#GNER}{GNER(r20)} = \href{#CONP}{CONP(r20)}+\href{#GCET}{GCET(r20)} +\href{#INVT}{INVT(r20)} +\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#INS}{INS(r20,g16)}\right) } \]
Equation 113: INTN
For r20 in regions (20 total):
\[ \href{#INTN}{INTN(r20)} = \href{#mrule_r}{mrule\_r(r20)}*\href{#INTL}{INTL(r20)} +\href{#mrule_ex}{mrule\_ex(r20)} *{(\href{#EXCH}{EXCH(r20)}-\href{#EXCL}{EXCL(r20)} -\href{#EXCX}{EXCX(r20)})} +\href{#mrule_1}{mrule\_1(r20)} *{(\href{#INFL}{INFL(r20)}-\href{#INFX}{INFX(r20)})} +\href{#mrule_2}{mrule\_2(r20)} *{(\href{#INFP}{INFP(r20)}-\href{#INFX}{INFX(r20)})} +\href{#mrule_3}{mrule\_3(r20)} *{(\href{#INFCL}{INFCL(r20)}-\href{#INFX}{INFX(r20)})} +\href{#mrule_4}{mrule\_4(r20)} *{(\href{#PRCT}{PRCT(r20)}-\href{#PTAR}{PTAR(r20)})} +\href{#mrule_5}{mrule\_5(r20)} *{(\href{#PRID}{PRID(r20)}-\href{#PTAR}{PTAR(r20)})} +\href{#mrule_6}{mrule\_6(r20)} *{(\href{#WAGE}{WAGE(r20)}-\href{#PTAR}{PTAR(r20)})} +\href{#mrule_7}{mrule\_7(r20)}*0 +\href{#mrule_8}{mrule\_8(r20)} *{(ln{ \left(\href{#OUTP}{OUTP(r20)}\right) } -ln{ \left(\href{#OUTL}{OUTL(r20)}\right) } -\href{#ROGY}{ROGY(r20)})} +\href{#mrule_9}{mrule\_9(r20)} *{(ln{ \left(\href{#OUTP}{OUTP(r20)}\right) } -ln{ \left(\href{#OUTL}{OUTL(r20)}\right) } -\href{#ROGY}{ROGY(r20)} +\href{#INFP}{INFP(r20)} -\href{#INFX}{INFX(r20)})} +\href{#mrule_10}{mrule\_10(r20)} *{(ln{ \left(\href{#GDPN}{GDPN(r20)}\right) } -\href{#ROGY}{ROGY(r20)})} +\href{#mrule_11}{mrule\_11(r20)} *{(ln{ \left(\href{#OUTP}{OUTP(r20)}\right) } +\href{#PRID}{PRID(r20)})} +\href{#mrule_12}{mrule\_12(r20)} *ln{ \left( {(\href{#OUTP}{OUTP(r20)}-\href{#TBAL}{TBAL(r20)})} *exp{ \left(\href{#PRID}{PRID(r20)}\right) }\right) } +\href{#mrule_13}{mrule\_13(r20)} *{(\href{#EPRC}{EPRC(r20)}-\href{#INFX}{INFX(r20)})} +\href{#mrule_14}{mrule\_14(r20)} *{(\href{#EYGR}{EYGR(r20)}-\href{#ROGY}{ROGY(r20)})} +\href{#mrule_15}{mrule\_15(r20)} *{(ln{ \left(\href{#GNEN}{GNEN(r20)}\right) } -\href{#ROGY}{ROGY(r20)})} \]
Equation 114: INTL
For r20 in regions (20 total):
\[ lead({\href{#INTL}{INTL(r20)}}) = \href{#INTN}{INTN(r20)} \]
Equation 115: GCE
For g13 in goods_e, r20 in regions (100 total):
\[ \href{#GCE}{GCE(g13,r20)} = \frac{{(\href{#delta_eG}{delta\_eG(g13,r20)} *\frac{\href{#delta_oG}{delta\_oG(\text{e},r20)}}{{(\href{#delta_oG}{delta\_oG(\text{e},r20)} +\href{#delta_oG}{delta\_oG(\text{m},r20)})}} *\href{#GOVS}{GOVS(r20)} *exp{ \left(\href{#PRGT}{PRGT(r20)}\right) })}}{exp{ \left(\href{#PRY}{PRY(g13,r20)}\right) }} \]
Equation 116: GCE
For g14 in goods_m, r20 in regions (140 total):
\[ \href{#GCE}{GCE(g14,r20)} = \frac{{(\href{#delta_mG}{delta\_mG(g14,r20)} *\frac{\href{#delta_oG}{delta\_oG(\text{m},r20)}}{{(\href{#delta_oG}{delta\_oG(\text{e},r20)} +\href{#delta_oG}{delta\_oG(\text{m},r20)})}} *\href{#GOVS}{GOVS(r20)} *exp{ \left(\href{#PRGT}{PRGT(r20)}\right) })}}{exp{ \left(\href{#PRY}{PRY(g14,r20)}\right) }} \]
Equation 117: GCET
For r20 in regions (20 total):
\[ \href{#GCET}{GCET(r20)} = \frac{\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#GCE}{GCE(g16,r20)} *exp{ \left(\href{#PRY}{PRY(g16,r20)}\right) }\right) }}{exp{ \left(\href{#PRGT}{PRGT(r20)}\right) }} \]
Equation 118: GOVT
For r20 in regions (20 total):
\[ \href{#GOVT}{GOVT(r20)} = \href{#GCET}{GCET(r20)} +\href{#GOVL}{GOVL(r20)} *exp{ \left( \href{#WAGG}{WAGG(r20)}-\href{#PRID}{PRID(r20)}\right) } \]
Equation 119: TRAN
For r20 in regions (20 total):
\[ \href{#TRAN}{TRAN(r20)} = \href{#TRANX}{TRANX(r20)} +\href{#transgdp}{transgdp(r20)}*\href{#OUTP}{OUTP(r20)} \]
Equation 120: TXM
For d in dest, g16 in goods_o (240 total):
\[ \href{#TXM}{TXM(g16,d)} = \frac{\sum_{o1 \; \text{in} \; \href{#orig}{orig}} { \left({(\href{#TIM}{TIM(g16,d,o1)}*\href{#MUL}{MUL(d,o1)} +\href{#TIF}{TIF(g16,d)}*\href{#FTA}{FTA(d,o1)})} *exp{ \left(\href{#PIM}{PIM(g16,d,o1)}\right) } *\href{#IMP}{IMP(g16,d,o1)}\right) }}{exp{ \left(\href{#PRID}{PRID(d)}\right) }} \]
Equation 121: TAXM
For d in dest (20 total):
\[ \href{#TAXM}{TAXM(d)} = \sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#TXM}{TXM(g16,d)}\right) } \]
Equation 122: TAXX
For r20 in regions (20 total):
\[ \href{#TAXX}{TAXX(r20)} = \frac{\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#TEX}{TEX(g16,r20)} *exp{ \left(\href{#PRS}{PRS(g16,r20)}\right) } *\href{#EXQ}{EXQ(g16,r20)}\right) }}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 123: TAXH
For r20 in regions (20 total):
\[ \href{#TAXH}{TAXH(r20)} = \frac{{(\href{#TINC}{TINC(r20)} *{(exp{ \left(\href{#WAGE}{WAGE(r20)}\right) } *{(\href{#IITL}{IITL(r20)}+\href{#CNPL}{CNPL(r20)})} +exp{ \left(\href{#WAGG}{WAGG(r20)}\right) } *\href{#GOVL}{GOVL(r20)} +\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(exp{ \left(\href{#WAG}{WAG(s,r20)}\right) } *\href{#LAB}{LAB(s,r20)}\right) })} -\href{#TITCH}{TITCH(r20)} *exp{ \left(\href{#PRII}{PRII(r20)}\right) } *\href{#INVZ}{INVZ(r20)})}}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 124: BOND
For r20 in regions (20 total):
\[ lead({\href{#BOND}{BOND(r20)}}) = \href{#DEFI}{DEFI(r20)} +\href{#BOND}{BOND(r20)}*{(1-\href{#labgrow}{labgrow(r20)})} -\href{#PBAG}{PBAG(r20)} \]
Equation 125: TAXL
For r20 in regions (20 total):
\[ \href{#TAXL}{TAXL(r20)} = \href{#INTR}{INTR(r20)}*\href{#BOND}{BOND(r20)} +\href{#TAXS}{TAXS(r20)} \]
Equation 126: TAXT
For r20 in regions (20 total):
\[ \href{#TAXT}{TAXT(r20)} = \href{#TAXC}{TAXC(r20)}+\href{#TAXH}{TAXH(r20)} +\href{#TAXL}{TAXL(r20)} +\href{#TAXM}{TAXM(r20)} +\href{#TAXX}{TAXX(r20)} +\href{#TAXE}{TAXE(r20)} \]
Equation 127: DEFI
For r20 in regions (20 total):
\[ \href{#DEFI}{DEFI(r20)} = \href{#GOVT}{GOVT(r20)}+\href{#TRAN}{TRAN(r20)} -\href{#TAXT}{TAXT(r20)} +\href{#INTR}{INTR(r20)}*\href{#BOND}{BOND(r20)} \]
Equation 128: DEFN
For r20 in regions (20 total):
\[ \href{#DEFN}{DEFN(r20)} = \href{#DEFI}{DEFI(r20)} +{(\href{#INTN}{INTN(r20)}-\href{#INTR}{INTR(r20)})} *\href{#BOND}{BOND(r20)} \]
Equation 129: PRT
For g13 in goods_e, r20 in regions, s in sec_std (1200 total):
\[ \href{#PRT}{PRT(s,g13,r20)} = ln{ \left( exp{ \left(\href{#PRS}{PRS(g13,r20)}\right) } *{(1+\href{#TAX}{TAX(g13,r20)})} +\href{#TXGS}{TXGS(s,g13,r20)}\right) } \]
Equation 130: CON
For g13 in goods_e, r20 in regions (100 total):
\[ \href{#CON}{CON(g13,r20)} = \href{#delta_eH}{delta\_eH(g13,r20)}*\href{#CNPE}{CNPE(r20)} *exp{ \left( \href{#PRCE}{PRCE(r20)}-\href{#PRY}{PRY(g13,r20)}\right) } ^\href{#sigma_eH}{sigma\_eH(r20)} \]
Equation 131: CON
For g15 in goods_mc, r20 in regions (120 total):
\[ \href{#CON}{CON(g15,r20)} = \href{#delta_mH}{delta\_mH(g15,r20)}*\href{#CNPO}{CNPO(r20)} *exp{ \left( \href{#PRCO}{PRCO(r20)}-\href{#PRY}{PRY(g15,r20)}\right) } ^\href{#sigma_mH}{sigma\_mH(r20)} \]
Equation 132: EN
For g13 in goods_e, r20 in regions, s in sec_std (1200 total):
\[ \href{#EN}{EN(s,g13,r20)} = \href{#delta_e}{delta\_e(r20,s,g13)}*\href{#ENT}{ENT(s,r20)} *exp{ \left( \href{#PRE}{PRE(s,r20)}-\href{#PRT}{PRT(s,g13,r20)}\right) } ^\href{#sigma_e}{sigma\_e(s,r20)} \]
Equation 133: OI
For g14 in goods_m, r20 in regions, s in sec_std (1680 total):
\[ \href{#OI}{OI(s,g14,r20)} = \href{#delta_m}{delta\_m(r20,s,g14)}*\href{#OIN}{OIN(s,r20)} *exp{ \left( \href{#POI}{POI(s,r20)}-\href{#PRY}{PRY(g14,r20)}\right) } ^\href{#sigma_m}{sigma\_m(s,r20)} \]
Equation 134: PRE
For r20 in regions, s in sec_std (240 total):
\[ \href{#PRE}{PRE(s,r20)} = \href{#cd_e}{cd\_e(s,r20)} *\sum_{g13 \; \text{in} \; \href{#goods_e}{goods\_e}} { \left(\href{#delta_e}{delta\_e(r20,s,g13)}*\href{#PRT}{PRT(s,g13,r20)}\right) } +\frac{{({(1-\href{#cd_e}{cd\_e(s,r20)})} *ln{ \left( \sum_{g13 \; \text{in} \; \href{#goods_e}{goods\_e}} { \left(\href{#delta_e}{delta\_e(r20,s,g13)} *exp{ \left(\href{#PRT}{PRT(s,g13,r20)}\right) } ^{(1-\href{#sigma_e}{sigma\_e(s,r20)})}\right) }\right) })}}{{(1 -\href{#sigma_e}{sigma\_e(s,r20)}*{(1-\href{#cd_e}{cd\_e(s,r20)})})}} \]
Equation 135: POI
For r20 in regions, s in sec_std (240 total):
\[ \href{#POI}{POI(s,r20)} = \href{#cd_m}{cd\_m(s,r20)} *\sum_{g14 \; \text{in} \; \href{#goods_m}{goods\_m}} { \left(\href{#delta_m}{delta\_m(r20,s,g14)}*\href{#PRY}{PRY(g14,r20)}\right) } +\frac{{({(1-\href{#cd_m}{cd\_m(s,r20)})} *ln{ \left( \sum_{g14 \; \text{in} \; \href{#goods_m}{goods\_m}} { \left(\href{#delta_m}{delta\_m(r20,s,g14)} *exp{ \left(\href{#PRY}{PRY(g14,r20)}\right) } ^{(1-\href{#sigma_m}{sigma\_m(s,r20)})}\right) }\right) })}}{{(1 -\href{#sigma_m}{sigma\_m(s,r20)}*{(1-\href{#cd_m}{cd\_m(s,r20)})})}} \]
Equation 136: PRCE
For r20 in regions (20 total):
\[ \href{#PRCE}{PRCE(r20)} = \href{#cd_eH}{cd\_eH(r20)} *\sum_{g13 \; \text{in} \; \href{#goods_e}{goods\_e}} { \left(\href{#delta_eH}{delta\_eH(g13,r20)}*\href{#PRY}{PRY(g13,r20)}\right) } +\frac{{({(1-\href{#cd_eH}{cd\_eH(r20)})} *ln{ \left( \sum_{g13 \; \text{in} \; \href{#goods_e}{goods\_e}} { \left(\href{#delta_eH}{delta\_eH(g13,r20)} *exp{ \left(\href{#PRY}{PRY(g13,r20)}\right) } ^{(1-\href{#sigma_eH}{sigma\_eH(r20)})}\right) }\right) })}}{{(1 -\href{#sigma_eH}{sigma\_eH(r20)}*{(1-\href{#cd_eH}{cd\_eH(r20)})})}} \]
Equation 137: PRCO
For r20 in regions (20 total):
\[ \href{#PRCO}{PRCO(r20)} = \href{#cd_mH}{cd\_mH(r20)} *\sum_{g14 \; \text{in} \; \href{#goods_m}{goods\_m}} { \left(\href{#delta_mH}{delta\_mH(g14,r20)}*\href{#PRY}{PRY(g14,r20)}\right) } +\frac{{({(1-\href{#cd_mH}{cd\_mH(r20)})} *ln{ \left( \sum_{g14 \; \text{in} \; \href{#goods_m}{goods\_m}} { \left(\href{#delta_mH}{delta\_mH(g14,r20)} *exp{ \left(\href{#PRY}{PRY(g14,r20)}\right) } ^{(1-\href{#sigma_mH}{sigma\_mH(r20)})}\right) }\right) })}}{{(1 -\href{#sigma_mH}{sigma\_mH(r20)}*{(1-\href{#cd_mH}{cd\_mH(r20)})})}} \]
Equation 138: TAXE
For r20 in regions (20 total):
\[ \href{#TAXE}{TAXE(r20)} = \href{#RVGS}{RVGS(r20)} \]
Equation 139: TAXC
For r20 in regions (20 total):
\[ \href{#TAXC}{TAXC(r20)} = \href{#TCOR}{TCOR(r20)} *{(\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#PRF}{PRF(s,r20)}\right) } +\href{#PRFY}{PRFY(r20)})} +\frac{{(\sum_{g12 \; \text{in} \; \href{#goods}{goods}} { \left(\href{#TAX}{TAX(g12,r20)} *exp{ \left(\href{#PRD}{PRD(g12,r20)}\right) } *\href{#OUG}{OUG(g12,r20)}\right) } +\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#TAX}{TAX(g16,r20)} *exp{ \left(\href{#PMR}{PMR(g16,r20)}\right) } *\href{#IMQ}{IMQ(g16,r20)}\right) } -\sum_{s \; \text{in} \; \href{#sec_std}{sec\_std}} { \left(\href{#TITC}{TITC(s,r20)} *exp{ \left(\href{#PRII}{PRII(r20)}\right) } *\href{#INV}{INV(s,r20)}\right) } -\sum_{g16 \; \text{in} \; \href{#goods_o}{goods\_o}} { \left(\href{#TAX}{TAX(g16,r20)} *exp{ \left(\href{#PRS}{PRS(g16,r20)}\right) } *\href{#EXQ}{EXQ(g16,r20)}\right) })}}{exp{ \left(\href{#PRID}{PRID(r20)}\right) }} \]
Equation 140: REXN
For r20 in regions (20 total):
\[ \href{#REXN}{REXN(r20)} = \href{#REXC}{REXC(r20)} \]
Equation 141: REXB
\[ \href{#REXB}{REXB(r3)} = \href{#REXC}{REXC(r3)} \]
Equation 142: REXL
\[ lead({\href{#REXL}{REXL(r3)}}) = \href{#REXB}{REXB(r3)} \]