/*
* This file is a modified version of 'fs2000.mod'.
*
* The difference is that, here, the equations are written in non-stationary form,
* and Dynare automatically does the detrending.
*
* Also note that "m" and "dA" in 'fs2000.mod' are here called "gM" and "gA"
*/
/*
* Copyright (C) 2004-2015 Dynare Team
*
* This file is part of Dynare.
*
* Dynare is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Dynare is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Dynare. If not, see .
*/
var gM gA;
trend_var(growth_factor=gA) A;
trend_var(growth_factor=gM) M;
var(deflator=A) k c y;
var(deflator=M(-1)/A) P;
var(deflator=M(-1)) W l d;
var R n;
varexo e_a e_m;
parameters alp bet gam mst rho psi del;
alp = 0.33;
bet = 0.99;
gam = 0.003;
mst = 1.011;
rho = 0.7;
psi = 0.787;
del = 0.02;
model;
gA = exp(gam+e_a);
log(gM) = (1-rho)*log(mst) + rho*log(gM(-1))+e_m;
c+k = k(-1)^alp*(A*n)^(1-alp)+(1-del)*k(-1);
P*c = M;
P/(c(+1)*P(+1))=bet*P(+1)*(alp*k^(alp-1)*(A(+1)*n(+1))^(1-alp)+(1-del))/(c(+2)*P(+2));
(psi/(1-psi))*(c*P/(1-n))=W;
R = P*(1-alp)*k(-1)^alp*A^(1-alp)*n^(-alp)/W;
W = l/n;
M-M(-1)+d = l;
1/(c*P)=bet*R/(c(+1)*P(+1));
y = k(-1)^alp*(A*n)^(1-alp);
end;
steady_state_model;
gA = exp(gam);
gst = 1/gA;
gM = mst;
khst = ( (1-gst*bet*(1-del)) / (alp*gst^alp*bet) )^(1/(alp-1));
xist = ( ((khst*gst)^alp - (1-gst*(1-del))*khst)/mst )^(-1);
nust = psi*mst^2/( (1-alp)*(1-psi)*bet*gst^alp*khst^alp );
n = xist/(nust+xist);
P = xist + nust;
k = khst*n;
l = psi*mst*n/( (1-psi)*(1-n) );
c = mst/P;
d = l - mst + 1;
y = k^alp*n^(1-alp)*gst^alp;
R = mst/bet;
W = l/n;
ist = y-c;
q = 1 - d;
e = 1;
end;
shocks;
var e_a; stderr 0.014;
var e_m; stderr 0.005;
end;
steady;
check;
stoch_simul;