空中蜂群:最近的应用和挑战。

Current robotics reports Pub Date : 2021-01-01 Epub Date: 2021-07-21 DOI:10.1007/s43154-021-00063-4
Mohamed Abdelkader, Samet Güler, Hassan Jaleel, Jeff S Shamma
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引用次数: 44

摘要

综述目的:目前,有大量关于多智能体系统的研究,涉及它们不同的系统理论方面。空中蜂群作为一种多智能体机器人系统,由于其潜在的应用前景,近年来引起了人们的极大兴趣。然而,空中机器人群是一个复杂的多学科系统,研究工作通常集中在特定应用的特定系统方面。本综述的目的是概述驱动该领域大多数研究工作的主要激励应用,并总结其发展所需的基本和通用算法组件。最近的发现:目前空中蜂群的大多数系统演示都是基于模拟的,一些已经展示了在受控的室内环境中使用少量机器人的实验,并且有限数量的工作已经报告了使用少量自主飞行器的室外实验。这表明了当前群系统在现实环境中的可扩展性问题。这主要是由于个体机器人的定位置信度有限,群体级相对定位,以及机器人之间交换信息的速度,这是规划安全协调运动所必需的。摘要:综述了空中蜂群激励技术的主要应用及相关研究工作。此外,还介绍了任一航空蜂群系统的核心要素——状态估计和任务规划的主要研究成果。最后,本文提出了一个空中蜂群系统架构的抽象概念,可以帮助开发人员理解这种系统的主要需求模块。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Aerial Swarms: Recent Applications and Challenges.

Aerial Swarms: Recent Applications and Challenges.

Aerial Swarms: Recent Applications and Challenges.

Aerial Swarms: Recent Applications and Challenges.

Purpose of review: Currently, there is a large body of research on multi-agent systems addressing their different system theoretic aspects. Aerial swarms as one type of multi-agent robotic systems have recently gained huge interest due to their potential applications. However, aerial robot groups are complex multi-disciplinary systems and usually research works focus on specific system aspects for particular applications. The purpose of this review is to provide an overview of the main motivating applications that drive the majority of research works in this field, and summarize fundamental and common algorithmic components required for their development.

Recent findings: Most system demonstrations of current aerial swarms are based on simulations, some have shown experiments using few 10 s of robots in controlled indoor environment, and limited number of works have reported outdoor experiments with small number of autonomous aerial vehicles. This indicates scalability issues of current swarm systems in real world environments. This is mainly due to the limited confidence on the individual robot's localization, swarm-level relative localization, and the rate of exchanged information between the robots that is required for planning safe coordinated motions.

Summary: This paper summarizes the main motivating aerial swarm applications and the associated research works. In addition, the main research findings of the core elements of any aerial swarm system, state estimation and mission planning, are also presented. Finally, this paper presents a proposed abstraction of an aerial swarm system architecture that can help developers understand the main required modules of such systems.

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