| Article ID: | iaor20062748 |
| Country: | United Kingdom |
| Volume: | 24 |
| Issue: | 1 |
| Start Page Number: | 23 |
| End Page Number: | 44 |
| Publication Date: | Jan 2003 |
| Journal: | Optimal Control Applications & Methods |
| Authors: | Rapaport A., Sraidi S., Terreaux J.P. |
| Keywords: | control processes, programming: dynamic, ecology |
We consider a discrete-time modelling of renewable resources, which regenerate after a delay once harvested. We study the qualitative behaviour of harvesting policies, which are optimal with respect to a discounted utility function over infinite horizon. Using Bellman's equation, we derive analytically conditions under which two types of policies (greedy and sustainable) are optimal, depending on the discount rate and the marginal utility. For this particular class of problems, we show also that the greedy policy is attractive in a certain sense. The techniques of proof lie on concavity, comparison of value functions and Lyapunov-like functions.