Population based Reinforcement Learning

2021 IEEE Symposium Series on Computational Intelligence (SSCI) Pub Date : 2021-12-05 DOI:10.1109/SSCI50451.2021.9660084

Kyle W. Pretorius, N. Pillay

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引用次数: 2

Abstract

Genetic algorithms have recently seen an increase in application due to their highly scalable nature. Enabling more efficient utilization of processing power that has become readily available. This study introduces Population based reinforcement learning (PBRL), a method that hybridizes a GA with a policy gradient reinforcement learning algorithm. This combination not only enables more scalable policy optimization, but also helps mitigate some of the common weaknesses of policy gradient algorithms. Furthermore, PBRL is also extended to include automatic hyper-parameter tuning, which is used to evaluate the impact that such tuning can have on the performance of the policy gradient algorithm being used. Experiments comparing these methods are conducted on a number of continuous control problems simulated by MuJoCo. Results show that PBRL is capable of outperforming a commonly used policy gradient algorithm, while also producing results in nearly one fifth the time. It is also observed that the addition of automatic hyperparameter tuning can be greatly beneficial for environments where well tuned hyper-parameters are not known.

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基于群体的强化学习

遗传算法由于其高度可扩展的特性，最近在应用中有所增加。能够更有效地利用现成的处理能力。本文介绍了基于种群的强化学习(PBRL)，一种将遗传算法与策略梯度强化学习算法相结合的方法。这种组合不仅支持更具可扩展性的策略优化，而且还有助于减轻策略梯度算法的一些常见弱点。此外，PBRL还被扩展到包括自动超参数调优，用于评估这种调优对所使用的策略梯度算法的性能的影响。在MuJoCo模拟的一系列连续控制问题上进行了对比实验。结果表明，PBRL能够优于常用的策略梯度算法，同时也能在近五分之一的时间内产生结果。还可以观察到，添加自动超参数调优对于不知道调优的超参数的环境非常有益。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE Symposium Series on Computational Intelligence (SSCI)

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