Online Gait Adaptation of a Hexapod Robot Using an Improved Artificial Hormone Mechanism
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Author list: Ngamkajornwiwat P., Teerakittikul P., Manoonpong P.
Publisher: Springer
Publication year: 2018
Volume number: 10994 LNAI
Start page: 212
End page: 222
Number of pages: 11
ISBN: 9783319976273
ISSN: 0302-9743
Languages: English-Great Britain (EN-GB)
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Abstract
Walking animals show a high level of proficiency in locomotion performance. This inspires the development of legged robots to approach these living creatures in emulating their abilities to cope with uncertainty and to quickly react to changing environments in artificial systems. Central pattern generators (CPGs) and a hormone mechanism are promising methods that many researchers have applied to aid autonomous robots to perform effective adjustable locomotion. Based on these two mechanisms, we present here a bio-inspired walking robot which is controlled by a combination of multiple CPGs and an artificial hormone mechanism with multiple receptor stages to achieve online gait adaptation. The presented control technique aims to provide more dynamics for the artificial hormone mechanism with an inclusion of hormone-receptor binding effect. The testing scenarios on a simulated hexapod robot include walking performance efficiency and adaptability to unexpected damages. It is clearly seen that varying of hormone-receptor binding effect at each time step results in a better locomotion performance in terms of faster adaptation, more balanced locomotion, and self-organized gait generation. The result of our new control technique also supports online gait adaptability to deal with unexpected morphological changes. ฉ 2018, Springer Nature Switzerland AG.
Keywords
Adaptive behaviours, Artificial hormone mechanism, Autonomous robot, Gait adaptation, Gait generation
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