Towards Faster Planning with Continuous Resources in Stochastic Domains

Citation:

Janusz Marecki and Milind Tambe. 2008. “Towards Faster Planning with Continuous Resources in Stochastic Domains .” In Twenty Third AAAI Conference on Artificial Intelligence .

Abstract:

Agents often have to construct plans that obey resource limits for continuous resources whose consumption can only be characterized by probability distributions. While Markov Decision Processes (MDPs) with a state space of continuous and discrete variables are popular for modeling these domains, current algorithms for such MDPs can exhibit poor performance with a scale-up in their state space. To remedy that we propose an algorithm called DPFP. DPFP’s key contribution is its exploitation of the dual space cumulative distribution functions. This dual formulation is key to DPFP’s novel combination of three features. First, it enables DPFP’s membership in a class of algorithms that perform forward search in a large (possibly infinite) policy space. Second, it provides a new and efficient approach for varying the policy generation effort based on the likelihood of reaching different regions of the MDP state space. Third, it yields a bound on the error produced by such approximations. These three features conspire to allow DPFP’s superior performance and systematic trade-off of optimality for speed. Our experimental evaluation shows that, when run stand-alone, DPFP outperforms other algorithms in terms of its any-time performance, whereas when run as a hybrid, it allows for a significant speedup of a leading continuous resource MDP solver.
See also: 2008