Proceedings:
Vol. 21 (2011): Twenty-First International Conference on Automated Planning and Scheduling
Volume
Issue:
Vol. 21 (2011): Twenty-First International Conference on Automated Planning and Scheduling
Track:
Short Papers
Downloads:
Abstract:
Real-time heuristic search is a standard approach to pathfind- ing when agents are required to make decisions in a bounded, very short period of time. An assumption usually made in the development and evaluation of real-time algorithms is that the environment is unknown. Nevertheless, in many interesting applications such as pathfinding for automnomous characters in video games, the environment is known in advance. Recent real-time search algorithms such as D LRTA* and kNN LRTA* exploit knowledge about the environment while pathfinding under real-time constraints. Key to those algorithms is the computation of subgoals in a preprocessing step. Subgoals are subsequently used in the online planning phase to obtain high-quality solutions. Preprocessing in those algorithms, however, requires significant computation. In this paper we propose a novel preprocessing algorithm that generates subgoals using a series of backward search episodes carried out from potential goals. The result of a single backward search episode is a tree of subgoals that we then use while planning online. We show the advantages of our approach over state-of-the-art algorithms by carrying out experiments on standard real-time search benchmarks.
DOI:
10.1609/icaps.v21i1.13488
ICAPS
Vol. 21 (2011): Twenty-First International Conference on Automated Planning and Scheduling