Hierarchical Optimization of Policy-Coupled Semi-Markov Decision Processes

Abstract

One general strategy for approximately solving large Markov decision processes is "divide-and-conquer": the original problem is decomposed into sub-problems which interact with each other, but yet can be solved independently by taking into account the nature of the interaction. In this paper we focus on a class of "policy-coupled" semi-Markov decision processes (SMDPs), which arise in many nonstationary real-world multi-agent tasks, such as manufacturing and robotics. The nature of the interaction among sub-problems (agents) is more subtle than that studied previously: the components of a sub-SMDP, namely the available states and actions, transition probabilities and rewards, depend on the policies used in solving the "neighboring" sub-SMDPs. This "strongly-coupled" interaction among subproblems causes the approach of solving each sub-SMDP in parallel to fail. We present a novel approach whereby many variants of each sub-SMDP are solved, explicitly taking into account the different mod...

Cite

Text

Wang and Mahadevan. "Hierarchical Optimization of Policy-Coupled Semi-Markov Decision Processes." International Conference on Machine Learning, 1999.

Markdown

[Wang and Mahadevan. "Hierarchical Optimization of Policy-Coupled Semi-Markov Decision Processes." International Conference on Machine Learning, 1999.](https://mlanthology.org/icml/1999/wang1999icml-hierarchical/)

BibTeX

@inproceedings{wang1999icml-hierarchical,
  title     = {{Hierarchical Optimization of Policy-Coupled Semi-Markov Decision Processes}},
  author    = {Wang, Gang and Mahadevan, Sridhar},
  booktitle = {International Conference on Machine Learning},
  year      = {1999},
  pages     = {464-473},
  url       = {https://mlanthology.org/icml/1999/wang1999icml-hierarchical/}
}