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Eden: A Unified Environment Framework for Booming Reinforcement Learning Algorithms

Authors :
Chen, Ruizhi
Wu, Xiaoyu
Pan, Yansong
Yuan, Kaizhao
Li, Ling
Ma, TianYun
Liang, JiYuan
Zhang, Rui
Wang, Kai
Zhang, Chen
Peng, Shaohui
Zhang, Xishan
Du, Zidong
Guo, Qi
Chen, Yunji
Publication Year :
2021

Abstract

With AlphaGo defeats top human players, reinforcement learning(RL) algorithms have gradually become the code-base of building stronger artificial intelligence(AI). The RL algorithm design firstly needs to adapt to the specific environment, so the designed environment guides the rapid and profound development of RL algorithms. However, the existing environments, which can be divided into real world games and customized toy environments, have obvious shortcomings. For real world games, it is designed for human entertainment, and too much difficult for most of RL researchers. For customized toy environments, there is no widely accepted unified evaluation standard for all RL algorithms. Therefore, we introduce the first virtual user-friendly environment framework for RL. In this framework, the environment can be easily configured to realize all kinds of RL tasks in the mainstream research. Then all the mainstream state-of-the-art(SOTA) RL algorithms can be conveniently evaluated and compared. Therefore, our contributions mainly includes the following aspects: 1.single configured environment for all classification of SOTA RL algorithms; 2.combined environment of more than one classification RL algorithms; 3.the evaluation standard for all kinds of RL algorithms. With all these efforts, a possibility for breeding an AI with capability of general competency in a variety of tasks is provided, and maybe it will open up a new chapter for AI.<br />Comment: 19 pages,16 figures

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2109.01768
Document Type :
Working Paper