Multi-scale reinforcement learning with fuzzy state

Proceedings. International Conference on Machine Learning and Cybernetics Pub Date : 2002-11-04 DOI:10.1109/ICMLC.2002.1167464
X. Zhuang, Qing-chun Meng, Han-Ping Wang, B. Yin
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Abstract

In this paper, multi-scale reinforcement learning is presented based on fuzzy state. The concept of fuzzy state is proposed to enable multi-scale representation of the state space. The performance of different learning scales is investigated, based on which a multi-scale learning approach is proposed to increase the learning speed while keeping the learning accuracy. The multi-scale learning approach is applied to the robot navigation problem in the computer simulation experiment. In a multi-obstacle environment, the multi-scale reinforcement learning approach shows better performance than the traditional reinforcement learning method.
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模糊状态下的多尺度强化学习
提出了一种基于模糊状态的多尺度强化学习方法。为了实现状态空间的多尺度表示,提出了模糊状态的概念。研究了不同学习尺度下的学习性能,在此基础上提出了一种多尺度学习方法,在保证学习精度的同时提高学习速度。在计算机仿真实验中,将多尺度学习方法应用于机器人导航问题。在多障碍环境下,多尺度强化学习方法比传统的强化学习方法表现出更好的性能。
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Proceedings. International Conference on Machine Learning and Cybernetics
Proceedings. International Conference on Machine Learning and Cybernetics
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