Authentic Boundary Proximal Policy Optimization

In recent years, the proximal policy optimization (PPO) algorithm has received considerable attention because of its excellent performance in many challenging tasks. However, there is still a large space for theoretical explanation of the mechanism of PPO's horizontal clipping operation, which...

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Vydáno v:IEEE transactions on cybernetics Ročník 52; číslo 9; s. 9428 - 9438
Hlavní autoři: Cheng, Yuhu, Huang, Longyang, Wang, Xuesong
Médium: Journal Article
Jazyk:angličtina
Vydáno: United States IEEE 01.09.2022
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Témata:
Algorithms
Authentic boundary
Control tasks
Games
Learning theory
Linear programming
Machine learning
Neural networks
Optimization
penalized point policy difference
Performance enhancement
proximal policy optimization (PPO)
Reinforcement learning
reinforcement learning (RL)
Robot control
Robots
rollback clipping
Task analysis
ISSN:2168-2267, 2168-2275, 2168-2275
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Shrnutí:In recent years, the proximal policy optimization (PPO) algorithm has received considerable attention because of its excellent performance in many challenging tasks. However, there is still a large space for theoretical explanation of the mechanism of PPO's horizontal clipping operation, which is a key means to improve the performance of PPO. In addition, while PPO is inspired by the learning theory of trust region policy optimization (TRPO), the theoretical connection between PPO's clipping operation and TRPO's trust region constraint has not been well studied. In this article, we first analyze the effect of PPO's clipping operation on the objective function of conservative policy iteration, and strictly give the theoretical relationship between PPO and TRPO. Then, a novel first-order policy gradient algorithm called authentic boundary PPO (ABPPO) is proposed, which is based on the authentic boundary setting rule. To ensure the difference between the new and old policies is better kept within the clipping range, by borrowing the idea of ABPPO, we proposed two novel improved PPO algorithms called rollback mechanism-based ABPPO (RMABPPO) and penalized point policy difference-based ABPPO (P3DABPPO), which are based on the ideas of rollback clipping and penalized point policy difference, respectively. Experiments on the continuous robotic control tasks implemented in MuJoCo show that our proposed improved PPO algorithms can effectively improve the learning stability and accelerate the learning speed compared with the original PPO.
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ISSN:2168-2267
2168-2275
2168-2275
DOI:10.1109/TCYB.2021.3051456