MADES: A Unified Framework for Integrating Agent-Based Simulation with Multi-Agent Reinforcement Learning

2021 Annual Modeling and Simulation Conference (ANNSIM) Pub Date : 2021-07-19 DOI:10.23919/ANNSIM52504.2021.9552052

Xiaohan Wang, Lin Zhang, Y. Laili, Kunyu Xie, H. Lu, Chun Zhao

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引用次数: 2

Abstract

Agent-Based Simulation (ABS) provides distributed entities for simulating agent emergence or interactive behaviors, but the agent behaviors usually rely on the hard rules, thus lacking the intelligent decision-making capability. With the development of artificial intelligence, Multi-Agent Reinforcement Learning (MARL) has shown positive potential in robot control, autonomous driving, and human-machine battles as its powerful learning capability for making intelligent decisions. There are many challenges in applying MARL directly to ABS, and there is no unified framework that integrates them. The paper proposed the Multi-Agent Discrete Event Simulation (MADES) framework based on several DEVS atomic models to construct the multi-agent system, which has advantages for representing various MARL architectures. A predator-prey system simulation with a mainstream MARL algorithm is built under our framework, the training curves and event transition time figure have verified the learning and the simulation performance of the framework.

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MADES:集成基于agent的仿真与多agent强化学习的统一框架

基于agent的仿真(ABS)为模拟agent的出现或交互行为提供了分布式实体，但agent的行为通常依赖于硬规则，缺乏智能决策能力。随着人工智能的发展，多智能体强化学习(Multi-Agent Reinforcement Learning, MARL)以其强大的学习能力进行智能决策，在机器人控制、自动驾驶、人机战斗等领域显示出积极的潜力。将MARL直接应用于ABS存在许多挑战，目前还没有统一的框架来集成它们。本文提出了基于多个DEVS原子模型的多智能体离散事件仿真(MADES)框架来构建多智能体系统，该框架具有表示各种MARL体系结构的优势。在我们的框架下建立了一个具有主流MARL算法的捕食者-猎物系统仿真，训练曲线和事件转移时间图验证了框架的学习性能和仿真性能。

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 Annual Modeling and Simulation Conference (ANNSIM)

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