Mastering Complex Control in MOBA Games with Deep Reinforcement Learning

Deheng Ye; Zhao Liu; Mingfei Sun; Bei Shi; Peilin Zhao; Hao Wu; Hongsheng Yu; Shaojie Yang; Xipeng Wu; Qingwei Guo; Qiaobo Chen; Yinyuting Yin; Hao Zhang; Tengfei Shi; Liang Wang; Qiang Fu; Wei Yang; Lanxiao Huang

doi:10.1609/aaai.v34i04.6144

Mastering Complex Control in MOBA Games with Deep Reinforcement Learning

Deheng Ye, Zhao Liu, Mingfei Sun, Bei Shi, Peilin Zhao, Hao Wu, Hongsheng Yu, Shaojie Yang, Xipeng Wu, Qingwei Guo, Qiaobo Chen, Yinyuting Yin, Hao Zhang, Tengfei Shi, Liang Wang, Qiang Fu, Wei Yang, Lanxiao Huang

Machine Learning and Robotics

Research output: Contribution to journal › Article › peer-review

Abstract

We study the reinforcement learning problem of complex action control in the Multi-player Online Battle Arena (MOBA) 1v1 games. This problem involves far more complicated state and action spaces than those of traditional 1v1 games, such as Go and Atari series, which makes it very difficult to search any policies with human-level performance. In this paper, we present a deep reinforcement learning framework to tackle this problem from the perspectives of both system and algorithm. Our system is of low coupling and high scalability, which enables efficient explorations at large scale. Our algorithm includes several novel strategies, including control dependency decoupling, action mask, target attention, and dual-clip PPO, with which our proposed actor-critic network can be effectively trained in our system. Tested on the MOBA game Honor of Kings, the trained AI agents can defeat top professional human players in full 1v1 games.

Original language	English
Pages (from-to)	6672-6679
Number of pages	8
Journal	Proceedings of the AAAI Conference on Artificial Intelligence
Volume	34
Issue number	04
DOIs	https://doi.org/10.1609/aaai.v34i04.6144
Publication status	Published - 3 Apr 2020

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10.1609/aaai.v34i04.6144

https://ojs.aaai.org/index.php/AAAI/article/view/6144

MCAIF: Centre for AI Fundamentals
Kaski, S. (PI), Alvarez, M. (Researcher), Pan, W. (Researcher), Mu, T. (Researcher), Rivasplata, O. (PI), Sun, M. (PI), Mukherjee, A. (PI), Caprio, M. (PI), Sonee, A. (Researcher), Leroy, A. (Researcher), Wang, J. (Researcher), Lee, J. (Researcher), Parakkal Unni, M. (Researcher), Sloman, S. (Researcher), Menary, S. (Researcher), Quilter, T. (Researcher), Hosseinzadeh, A. (PGR student), Mousa, A. (PGR student), Glover, E. (PGR student), Das, A. (PGR student), DURSUN, F. (PGR student), Zhu, H. (PGR student), Abdi, H. (PGR student), Dandago, K. (PGR student), Piriyajitakonkij, M. (PGR student), Rachman, R. (PGR student), Shi, X. (PGR student), Keany, T. (PGR student), Liu, X. (PGR student), Jiang, Y. (PGR student), Wan, Z. (PGR student), Harrison, M. (Support team), Machado, M. (Support team), Hartford, J. (PI), Kangin, D. (Researcher), Harikumar, H. (PI), Dubey, M. (PI), Parakkal Unni, M. (PI), Dash, S. P. (PGR student), Mi, X. (PGR student) & Barlas, Y. (PGR student)
1/10/21 → 30/09/26
Project: Research

Cite this

Ye, D., Liu, Z., Sun, M., Shi, B., Zhao, P., Wu, H., Yu, H., Yang, S., Wu, X., Guo, Q., Chen, Q., Yin, Y., Zhang, H., Shi, T., Wang, L., Fu, Q., Yang, W., & Huang, L. (2020). Mastering Complex Control in MOBA Games with Deep Reinforcement Learning. Proceedings of the AAAI Conference on Artificial Intelligence, 34(04), 6672-6679. https://doi.org/10.1609/aaai.v34i04.6144

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title = "Mastering Complex Control in MOBA Games with Deep Reinforcement Learning",

abstract = "We study the reinforcement learning problem of complex action control in the Multi-player Online Battle Arena (MOBA) 1v1 games. This problem involves far more complicated state and action spaces than those of traditional 1v1 games, such as Go and Atari series, which makes it very difficult to search any policies with human-level performance. In this paper, we present a deep reinforcement learning framework to tackle this problem from the perspectives of both system and algorithm. Our system is of low coupling and high scalability, which enables efficient explorations at large scale. Our algorithm includes several novel strategies, including control dependency decoupling, action mask, target attention, and dual-clip PPO, with which our proposed actor-critic network can be effectively trained in our system. Tested on the MOBA game Honor of Kings, the trained AI agents can defeat top professional human players in full 1v1 games.",

author = "Deheng Ye and Zhao Liu and Mingfei Sun and Bei Shi and Peilin Zhao and Hao Wu and Hongsheng Yu and Shaojie Yang and Xipeng Wu and Qingwei Guo and Qiaobo Chen and Yinyuting Yin and Hao Zhang and Tengfei Shi and Liang Wang and Qiang Fu and Wei Yang and Lanxiao Huang",

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doi = "10.1609/aaai.v34i04.6144",

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AU - Wu, Hao

AU - Yu, Hongsheng

AU - Yang, Shaojie

AU - Wu, Xipeng

AU - Guo, Qingwei

AU - Chen, Qiaobo

AU - Yin, Yinyuting

AU - Zhang, Hao

AU - Shi, Tengfei

AU - Wang, Liang

AU - Fu, Qiang

AU - Yang, Wei

AU - Huang, Lanxiao

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AB - We study the reinforcement learning problem of complex action control in the Multi-player Online Battle Arena (MOBA) 1v1 games. This problem involves far more complicated state and action spaces than those of traditional 1v1 games, such as Go and Atari series, which makes it very difficult to search any policies with human-level performance. In this paper, we present a deep reinforcement learning framework to tackle this problem from the perspectives of both system and algorithm. Our system is of low coupling and high scalability, which enables efficient explorations at large scale. Our algorithm includes several novel strategies, including control dependency decoupling, action mask, target attention, and dual-clip PPO, with which our proposed actor-critic network can be effectively trained in our system. Tested on the MOBA game Honor of Kings, the trained AI agents can defeat top professional human players in full 1v1 games.

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JO - Proceedings of the AAAI Conference on Artificial Intelligence

JF - Proceedings of the AAAI Conference on Artificial Intelligence

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ER -

Mastering Complex Control in MOBA Games with Deep Reinforcement Learning

Abstract

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MCAIF: Centre for AI Fundamentals

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