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Evolving gaits for damage control in a hexapod robot

Christopher Mailer, Geoff Nitschke, Leanne Raw

Year
2021
Citations
5
Access
Open access

Abstract

Autonomous robots are increasingly used in remote and hazardous environments, where damage to sensory-actuator systems cannot be easily repaired. Such robots must therefore have controllers that continue to function effectively given unexpected malfunctions and damage to robot morphology. This study applies the Intelligent Trial and Error (IT&E) algorithm to adapt hexapod robot control to various leg failures and demonstrates the IT&E map-size parameter as a critical parameter in influencing IT&E adaptive task performance. We evaluate robot adaptation for multiple leg failures on two different map-sizes in simulation and validate evolved controllers on a physical hexapod robot. Results demonstrate a trade-off between adapted gait speed and adaptation duration, dependent on adaptation task complexity (leg damage incurred), where map-size is crucial for generating behavioural diversity required for adaptation.

Keywords

HexapodRobotAdaptation (eye)Computer scienceTask (project management)Mobile robotGaitActuatorRobot controlSimulation

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