Dear all,
I know that one can estimate a VAR, but I would like to know if it is possible to estimate a single equation model with Dynare?
For example a Taylor Rule as follow:
R = rho*R(-1) + (1-rho)*(gamma*pi + beta*y + alpha*e) + epsilon
with:
- R, pi, y, e respectively the interest rate, inflation, output gap and exchange rate (all have an equivalent observable variable).
- epsilon is a shock.
- rho, gamma and beta, alpha paramaters to be estimated.
How to declare pi, y and e?
I see two solution:
- exogenous variables.
- endogenous variables with aditional equation such ar AR or something like this.
Do you have any advice?
Do you know any example?
Best,
L.
Dynare forums
Forums for asking questions, posting comments and uploading examples related to Dynare
Estimation of a single equation
Forum rules
This forum is closed. You can read the posts but cannot write. We have migrated the forum to a new location (https://forum.dynare.org) where you will have to reset your password.
This forum is closed. You can read the posts but cannot write. We have migrated the forum to a new location (https://forum.dynare.org) where you will have to reset your password.
5 posts
• Page 1 of 1
Estimation of a single equation
by ludog » Fri Dec 19, 2014 1:07 pm
- ludog
- Posts: 17
- Joined: Wed Nov 18, 2009 12:03 pm
Re: Estimation of a single equation
by jpfeifer » Fri Dec 19, 2014 1:23 pm
Why would you want to do this? The equation you wrote down can easily be estimated using a OLS regression.
However, the literature has shown that the coefficients of Taylor rules are typically not identified, because of endogeneity (see e.g. Cochrane's recent JPE paper). Thus, you would need to either use GMM or joint estimation of an equilibrium system. This would imply that you need to specify equations for y and pi which are NOT exogenous, but jointly determined.
However, the literature has shown that the coefficients of Taylor rules are typically not identified, because of endogeneity (see e.g. Cochrane's recent JPE paper). Thus, you would need to either use GMM or joint estimation of an equilibrium system. This would imply that you need to specify equations for y and pi which are NOT exogenous, but jointly determined.
- jpfeifer
- Posts: 6940
- Joined: Sun Feb 21, 2010 4:02 pm
- Location: Cologne, Germany
Re: Estimation of a single equation
by ludog » Fri Dec 19, 2014 2:20 pm
Thanks a lot for your response.
First, I believe that almost nothing is exogenous stricto sensu.
Second, OLS would allow to estimate "(1-rho)*gamma", not directly gamma, right? I would use NLS instead.
However, there two main reasons why I want to do this:
- Not a lot of observations + idea of parameters value/signs + want to constraint rho between 0 and 1 => Bayesian econometrics seems useful in that case.
- It is for quick estimation, not for a research paper (more a preliminary/basic analysis) => Do not want to estimate a full model.
If I consider to estimate an equilibrium system:
What would be the smaller equilibrium system for a small open economy (I have exchange rate in the Taylor rule)?
Or alternatively, could I estimate a small closed economy model and consider that exchange rate is exogenous (following an AR(1) for example)?
Thank you for the reference, it seems to be a must read!
L.
First, I believe that almost nothing is exogenous stricto sensu.
Second, OLS would allow to estimate "(1-rho)*gamma", not directly gamma, right? I would use NLS instead.
However, there two main reasons why I want to do this:
- Not a lot of observations + idea of parameters value/signs + want to constraint rho between 0 and 1 => Bayesian econometrics seems useful in that case.
- It is for quick estimation, not for a research paper (more a preliminary/basic analysis) => Do not want to estimate a full model.
If I consider to estimate an equilibrium system:
What would be the smaller equilibrium system for a small open economy (I have exchange rate in the Taylor rule)?
Or alternatively, could I estimate a small closed economy model and consider that exchange rate is exogenous (following an AR(1) for example)?
Thank you for the reference, it seems to be a must read!
L.
- ludog
- Posts: 17
- Joined: Wed Nov 18, 2009 12:03 pm
Re: Estimation of a single equation
by jpfeifer » Fri Dec 19, 2014 2:34 pm
Cochrane is a must read. You will see that your preliminary approach most likely will result in wrong results.
You don't need NLS. The equation is linear in R(-1), pi and y. The coefficient in front of lagged R identifies rho. Using this information, you can back out gamma from the (1-rho)*gamma coefficient in front of pi. This what e.g. Clarida/Gali/Gertler (2000) do (but they use GMM). If you have access to Eviews, performing a similar GMM estimation to them is really straightforward.
The smallest model would be something like the toy models from Gali's 2008 textbook.
You don't need NLS. The equation is linear in R(-1), pi and y. The coefficient in front of lagged R identifies rho. Using this information, you can back out gamma from the (1-rho)*gamma coefficient in front of pi. This what e.g. Clarida/Gali/Gertler (2000) do (but they use GMM). If you have access to Eviews, performing a similar GMM estimation to them is really straightforward.
The smallest model would be something like the toy models from Gali's 2008 textbook.
- jpfeifer
- Posts: 6940
- Joined: Sun Feb 21, 2010 4:02 pm
- Location: Cologne, Germany
5 posts
• Page 1 of 1
Who is online
Users browsing this forum: No registered users and 12 guests