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Gait Characteristics and Adaptation Strategies of Ants with Missing Legs

This paper systematically studies the movement behavior changes of Camponotus japonicus under one or two leg injuries. Firstly, a linear motion channel matching the size of the ants’ legs was designed, and the movements of ants with different leg injuries were captured using high-speed cameras, cons...

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Published in:	Journal of bionics engineering 2024-09, Vol.21 (5), p.2409-2423
Main Authors:	Zeng, Ming, Meng, Chang, Han, Bin, Li, Yuanhao, Yu, Hanshen, Fu, Huijia, Zhong, Shutong
Format:	Article
Language:	English
Subjects:	Artificial Intelligence Biochemical Engineering Bioinformatics Biomaterials Biomedical Engineering and Bioengineering Biomedical Engineering/Biotechnology Engineering Research Article
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container_title	Journal of bionics engineering
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creator	Zeng, Ming Meng, Chang Han, Bin Li, Yuanhao Yu, Hanshen Fu, Huijia Zhong, Shutong
description	This paper systematically studies the movement behavior changes of Camponotus japonicus under one or two leg injuries. Firstly, a linear motion channel matching the size of the ants’ legs was designed, and the movements of ants with different leg injuries were captured using high-speed cameras, constructing a comprehensive video dataset of ants’ movements with missing legs. Secondly, stable and reliable motion position information for keypoints on the ants’ bodies and legs was obtained by utilizing low-annotation biometric keypoint detection technology. Finally, by analyzing the filtered gait data, information about the changes in the step locational points areas, phase differences, and duty factors of the injured ants’ remaining legs was obtained. Comparative analysis of the ants’ gait characteristics revealed some common adjustment patterns when the ants were in the injured states. Additionally, the study found that the loss of a foreleg had a significant impact on the ants’ movement. When two legs were missing, the loss of both legs on the same side had a greater effect on movement, whereas symmetric opposite-side leg loss conditions had a lesser impact. The research will provide an important reference for the subsequent design of gait adjustment algorithms for biomimetic multi-legged robots under damaged conditions.
doi_str_mv	10.1007/s42235-024-00572-w
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subjects	Artificial Intelligence Biochemical Engineering Bioinformatics Biomaterials Biomedical Engineering and Bioengineering Biomedical Engineering/Biotechnology Engineering Research Article
title	Gait Characteristics and Adaptation Strategies of Ants with Missing Legs
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