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Diffusion Actor-Critic with Entropy Regulator

Authors :
Wang, Yinuo
Wang, Likun
Jiang, Yuxuan
Zou, Wenjun
Liu, Tong
Song, Xujie
Wang, Wenxuan
Xiao, Liming
Wu, Jiang
Duan, Jingliang
Li, Shengbo Eben
Publication Year :
2024

Abstract

Reinforcement learning (RL) has proven highly effective in addressing complex decision-making and control tasks. However, in most traditional RL algorithms, the policy is typically parameterized as a diagonal Gaussian distribution with learned mean and variance, which constrains their capability to acquire complex policies. In response to this problem, we propose an online RL algorithm termed diffusion actor-critic with entropy regulator (DACER). This algorithm conceptualizes the reverse process of the diffusion model as a novel policy function and leverages the capability of the diffusion model to fit multimodal distributions, thereby enhancing the representational capacity of the policy. Since the distribution of the diffusion policy lacks an analytical expression, its entropy cannot be determined analytically. To mitigate this, we propose a method to estimate the entropy of the diffusion policy utilizing Gaussian mixture model. Building on the estimated entropy, we can learn a parameter $\alpha$ that modulates the degree of exploration and exploitation. Parameter $\alpha$ will be employed to adaptively regulate the variance of the added noise, which is applied to the action output by the diffusion model. Experimental trials on MuJoCo benchmarks and a multimodal task demonstrate that the DACER algorithm achieves state-of-the-art (SOTA) performance in most MuJoCo control tasks while exhibiting a stronger representational capacity of the diffusion policy.<br />Comment: NeurIPS2024 Accepted

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2405.15177
Document Type :
Working Paper