Design and Implementation of a Position-Based Coordinated Formation System for Underwater Multiple Small Spherical Robots

Design and Implementation of a Position-Based Coordinated Formation System for Underwater Multiple Small Spherical Robots

Due to the excellent concealment and high mobility, multiple small spherical underwater robots are essential for near coast defending missions. The formation of multiple small spherical underwater robots is particularly effective for tasks such as patrolling, reconnaissance, surveillance, and captur...

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Bibliographic Details
Main Authors: Xihuan Hou, Shuxiang Guo, Zan Li, Huimin Shi, Na Yuan, Huiming Xing
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Oceans
Subjects:
coordinate formation
small spherical robot
virtual linkage
position tracking
improved consensus
artificial potential field
Online Access:https://www.mdpi.com/2673-1924/6/2/21
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Summary:Due to the excellent concealment and high mobility, multiple small spherical underwater robots are essential for near coast defending missions. The formation of multiple small spherical underwater robots is particularly effective for tasks such as patrolling, reconnaissance, surveillance, and capturing sensitive targets. Moreover, some tasks need higher flexibility and mobility, such as reconnaissance, surveillance, or target encirclement at fixed locations. For this purpose, this paper proposes a position-based formation mechanism which is easily deployed for multiple spherical robots. A position planning method during the formation process is designed. This method creatively integrates the virtual linkage strategy with an improved consensus algorithm and the artificial potential field (APF) method. The virtual linkage strategy is in charge of computing the global formation desired target positions for robots according to the predefined position of the virtual leader joint. The improved consensus algorithm and APF are responsible for planning the local desired positions between two formation desired target positions, which is able to prevent collisions and excessive communication distance between robots. In order to verify the effectiveness of the proposed formation mechanism, adequate simulations and experiments are conducted. Thereby, the proposed formation frame offers great potential for future practical marine operations of the underwater multi-small robot systems.
ISSN:2673-1924

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