Cooperative Communication, Localization, Sensing and Control for Autonomous Robotic Networks

2021 IEEE International Conference on Autonomous Systems (ICAS) Pub Date : 2021-08-11 DOI:10.1109/ICAS49788.2021.9551201

Siwei Zhang, E. Staudinger, R. Pöhlmann, A. Dammann

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引用次数: 5

Abstract

Networks composed of a myriad of autonomous robots have attracted increasing attention in recent years due to their enormous capability expansion from single robot systems. In these networks, robots benefit from the collaboration with each other to enhance their situation awareness for autonomous operation. For example, in an extraterrestrial exploration mission, a robotic swarm can collaboratively utilize the inter-robot communication system to propagate information, synchronize itself, and navigate to achieve mission objectives like joint environmental sensing. In addition, each robot can decide and control its own trajectory, so that the aforementioned tasks are accomplished in a globally efficient manner. In this paper, we propose multi-agent control strategies for autonomous robotic networks, which adapt the mission demands on cooperative communication, localization and sensing. We also discuss three space exploration examples with different mission demands, which lead to distinct network formations. These three missions will be conceptually demonstrated in a space analog mission on the volcano Mount Etna in June 2022.

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自主机器人网络的协同通信、定位、传感与控制

近年来，由无数自主机器人组成的网络由于其在单个机器人系统上的巨大能力扩展而受到越来越多的关注。在这些网络中，机器人受益于彼此之间的协作，以增强其自主操作的态势感知。例如，在地外探测任务中，机器人群可以协同利用机器人间通信系统进行信息传播、自身同步和导航，以实现联合环境感知等任务目标。此外，每个机器人都可以决定和控制自己的轨迹，从而以全局高效的方式完成上述任务。针对自主机器人网络在协作通信、定位和感知等方面的任务需求，提出了多智能体控制策略。本文还讨论了三个具有不同任务需求的空间探索实例，这些实例导致了不同的网络结构。这三项任务将于2022年6月在埃特纳火山的太空模拟任务中进行概念性演示。

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 IEEE International Conference on Autonomous Systems (ICAS)

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