Abstract
This paper deals with constrained optimization of Markov Decision Processes. Both objective function and constraints are sums of standard discounted rewards, but each with a different discount factor Such models arise, e.g., in production and in applications involving multiple time scales. We prove that it a feasible policy exists, then there exists an optimal policy which is (i) stationary (nonrandomized) from some step onward, (ii) randomized, Markov before this step, but the total number of actions which are added by randomization is bounded by the number of constraints. Optimality of such policies for multi-criteria problems is also established. These new policies have the pleasing aesthetic property that the amount of randomization they require over any trajectory is restricted by the number of constraints. This result is new even for constrained optimization with a single discount factor, where the optimality of randomized stationary policies is known. However, a randomized stationary policy may require an infinite number of randomizations over time. We also formulate a linear programming algorithm for approximate solutions of con-strained weighted discounted models.
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