Multi-Robot Systems and Cooperative Object Transport: Communications, Platforms, and Challenges

Xing An;Celimuge Wu;Yangfei Lin;Min Lin;Tsutomu Yoshinaga;Yusheng Ji
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引用次数: 7

Abstract

Multi-robot systems gain considerable attention due to lower cost, better robustness, and higher scalability as compared with single-robot systems. Cooperative object transport, as a well-known use case of multi-robot systems, shows great potential in real-world applications. The design and implementation of a multi-robot system involve many technologies, specifically, communication, coordination, task allocation methods, experimental platforms, and simulators. However, most of recent multi-robot system studies focus on coordination and task allocation problems, with little focus on communications among multiple robots. In this review, we focus on the communication, validation platform, and simulator of multi-robot systems, and discuss one of the important applications, cooperative object transport. First, we study the multi-robot system fundamentals and comprehensively review the multi-robot system communication technologies. Then, the multi-robot system validating platform, testbed, simulator, and middleware used in academia and industry are investigated. Finally, we discuss recent advances in cooperative object transport, and challenges and possible future research directions for multi-robot systems.
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多机器人系统与协同对象传输:通信、平台和挑战
与单机器人系统相比,多机器人系统由于成本更低、鲁棒性更强和可扩展性更高而备受关注。协作对象传输作为多机器人系统的一个众所周知的用例,在现实世界中显示出巨大的应用潜力。多机器人系统的设计和实现涉及许多技术,特别是通信、协调、任务分配方法、实验平台和模拟器。然而,最近的多机器人系统研究大多集中在协调和任务分配问题上,很少关注多个机器人之间的通信。在这篇综述中,我们重点讨论了多机器人系统的通信、验证平台和模拟器,并讨论了其中一个重要的应用,即协作对象传输。首先,我们研究了多机器人系统的基本原理,并对多机器人系统通信技术进行了全面综述。然后,对学术界和工业界使用的多机器人系统验证平台、测试平台、模拟器和中间件进行了研究。最后,我们讨论了合作物体运输的最新进展,以及多机器人系统面临的挑战和未来可能的研究方向。
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