Trajectory planning for multi-robot systems: Methods and applications

•The Multi-Robot systems have high applicability in a wide variety of works.•The autonomous and coordinate navigation makes the MRS a tool for emergencies.•Path planning methods play a crucial role in autonomous navigation algorithms.•The paper analyses path planning oriented to MRS, comparing the m...

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Bibliographic Details
Published inExpert systems with applications Vol. 173; p. 114660
Main Authors Madridano, Ángel, Al-Kaff, Abdulla, Martín, David, de la Escalera, Arturo
Format Journal Article
LanguageEnglish
Published New York Elsevier Ltd 01.07.2021
Elsevier BV
Subjects
Algorithms
Artificial intelligence
Autonomous navigation
Autonomous vehicles
Multi-robot systems
Multiple robots
Path planning
Trajectory planning
UAVs
UGVs
Unmanned aerial vehicles
Unmanned ground vehicles
00–01
99–00
UGVs
Path planning
Multi-robot systems
Autonomous vehicles
UAVs
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Summary:•The Multi-Robot systems have high applicability in a wide variety of works.•The autonomous and coordinate navigation makes the MRS a tool for emergencies.•Path planning methods play a crucial role in autonomous navigation algorithms.•The paper analyses path planning oriented to MRS, comparing the most critical methods.•The paper review the applications that MRS are a crucial tool, e.g. search and rescue. In the multiple fields covered by Artificial Intelligence (AI), path planning is undoubtedly one of the issues that cover a wide range of research lines. To be able to find an optimal solution, which allows one or several vehicles to establish a safe and effective way to reach a final state from an initial state, is a challenge that continues to be studied today. The increasingly widespread use of autonomous vehicles, both aerial and ground-based, make path planning an essential aspect for incorporating these systems into an endless number of applications. Besides, in recent years, the use of Multi-Robot Systems (MRS) has spread, consisting of both Unmanned Aerial Vehicles (UAVs) and Unmanned Ground Vehicles (UGVs), gaining versatility and robustness in their operation. The possibility of using heterogeneous robotic teams allows tackling, autonomously, and simultaneously, a wide range of tasks with different characteristics in the same environment. For this purpose, path planning becomes a crucial aspect and, for this reason, this work aims to offer a general vision of trajectory planning, to establish a comparison between the methods and algorithms present in the literature for the resolution of this problem within MRS, and finally, to show the applicability of these methods in different areas, together with the importance of these methods for achieving autonomous and safe navigation of different types of vehicles.
ISSN:0957-4174
1873-6793
DOI:10.1016/j.eswa.2021.114660