Algorithm for Constrained Markov Decision Process with Linear Convergence
Abstract
The problem of constrained Markov decision process is considered. An agent aims to maximize the expected accumulated discounted reward subject to multiple constraints on its costs (the number of constraints is relatively small). A new dual approach is proposed with the integration of two ingredients: entropy regularized policy optimizer and Vaidya's dual optimizer, both of which are critical to achieve faster convergence. The finite-time error bound of the proposed approach is provided. Despite the challenge of the nonconcave objective subject to nonconcave constraints, the proposed approach is shown to converge (with linear rate) to the global optimum. The complexity expressed in terms of the optimality gap and the constraint violation significantly improves upon the existing primal-dual approaches.
Cite
@article{arxiv.2206.01666,
title = {Algorithm for Constrained Markov Decision Process with Linear Convergence},
author = {Egor Gladin and Maksim Lavrik-Karmazin and Karina Zainullina and Varvara Rudenko and Alexander Gasnikov and Martin Takáč},
journal= {arXiv preprint arXiv:2206.01666},
year = {2022}
}
Comments
27 pages, 2 figures, 3 tables. Improved presentation of the material, added a table with results, stated contributions more clearly, changed article template