Exploiting Coordination Locales in Distributed POMDPs via Social Model Shaping

Authors

  • Pradeep Varakantham Singapore Management University
  • Jun-young Kwak University of Southern California
  • Matthew Taylor University of Southern California
  • Janusz Marecki IBM T. J Watson Research Center
  • Paul Scerri Carnegie Mellon University
  • Milind Tambe University of Southern California

DOI:

https://doi.org/10.1609/icaps.v19i1.13369

Keywords:

POMDP, Multiagent planning, Uncertainty, Partially observability

Abstract

Distributed POMDPs provide an expressive framework for modeling multiagent collaboration problems, but NEXP-Complete complexity hinders their scalability and application in real-world domains. This paper introduces a subclass of distributed POMDPs, and TREMOR, an algorithm to solve such distributed POMDPs. The primary novelty of TREMOR is that agents plan individually with a single agent POMDP solver and use social model shaping to implicitly coordinate with other agents. Experiments demonstrate that TREMOR can provide solutions orders of magnitude faster than existing algorithms while achieving comparable, or even superior, solution quality.

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Published

2009-10-16

How to Cite

Varakantham, P., Kwak, J.- young, Taylor, M., Marecki, J., Scerri, P., & Tambe, M. (2009). Exploiting Coordination Locales in Distributed POMDPs via Social Model Shaping. Proceedings of the International Conference on Automated Planning and Scheduling, 19(1), 313-320. https://doi.org/10.1609/icaps.v19i1.13369

Issue

Vol. 19 (2009): Nineteenth International Conference on Automated Planning and Scheduling

Section

Long Papers