Controlling the learning process of real-time heuristic search

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摘要

Real-time search provides an attractive framework for intelligent autonomous agents, as it allows us to model an agent's ability to improve its performance through experience. However, the behavior of real-time search agents is far from rational during the learning (convergence) process, in that they fail to balance the efforts to achieve a short-term goal (i.e., to safely arrive at a goal state in the present problem solving trial) and a long-term goal (to find better solutions through repeated trials). As a remedy, we introduce two techniques for controlling the amount of exploration, both overall and per trial. The weighted real-time search reduces the overall amount of exploration and accelerates convergence. It sacrifices admissibility but provides a nontrivial bound on the converged solution cost. The real-time search with upper bounds insures solution quality in each trial when the state space is undirected. These techniques result in a convergence process more stable compared with that of the Learning Real-Time A∗ algorithm.

论文关键词:Real-time heuristic search,Adaptive learning,Convergence process,Rational agent,Resource-boundedness

论文评审过程:Received 2 June 2001, Revised 18 August 2002, Available online 27 February 2003.

论文官网地址:https://doi.org/10.1016/S0004-3702(03)00012-2