Tech Report CS-95-19

Efficient dynamic-programming updates in partially observable Markov decision processes

Michael L. Littman, Anthony R. Cassandra, and Leslie Pack Kaelbling

November 1995

Abstract:

We examine the problem of performing exact dynamic-programming updates in partially observable Markov decision processes (POMDPs) from a computational complexity viewpoint. Dynamic-programming updates are a crucial operation in a wide range of POMDP solution methods and we find that it is intractable to perform these updates on piecewise-linear convex value functions for general POMDPs. We offer a new algorithm, called the witness algorithm, which can compute updated value functions efficiently on a restricted class of POMDPs in which the number of linear facets is not too great. We compare the witness algorithm to existing algorithms analytically and empirically and find that it is the fastest algorithm over a wide range of POMDP sizes.

(complete text in pdf or gzipped postscript)