by schoderch » Thu Feb 19, 2015 6:21 pm
Dear Johannes, thank you very much for your time!
I looked at your solution and I think it is not entirely correct. Nevertheless I was able to solve it following your approach. The solution (in latex syntax) is \kappa_t=x_t(1+a\kappa_{t+1}) which I believe is correct (see pdf).
Unfortunately, my model does not collapse to the problem I have initially stated and things get more complicated and now I am again not able to derive a recursive representation (if it even exists). The equation reads
\kappa_t = \sum_{n=0}^\infty ( a^n \frac{ \text{E}_t [\prod_{k=0}^n R_{t+k}^{-1}C_{t+n}]} {\text{E}_t [\prod_{k=0}^n R_{t+k}C_{t+n}^{-1}]} )
where \text{E}_t is the expectation operator. I have also created a pdf attached.
Again I would be very grateful if someone was willing to have a look at the problem. Thank you so much!
Best, Christian
- Attachments
-
- recursive.pdf
- (12.79 KiB) Downloaded 82 times