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Bipedal Walking of Underwater Soft Robot Based on Data-Driven Model Inspired by Octopus

Qiuxuan Wu, Yan Wu, Xiaochen Yang, Botao Zhang, Jian Wang, Sergey A. Chepinskiy, Anton Zhilenkov

2022Frontiers in Robotics and AI15 citationsDOIOpen Access PDF

Abstract

The soft organisms in nature have always been a source of inspiration for the design of soft arms and this paper draws inspiration from the octopus's tentacle, aiming at a soft robot for moving flexibly in three-dimensional space. In the paper, combined with the characteristics of an octopus's tentacle, a cable-driven soft arm is designed and fabricated, which can motion flexibly in three-dimensional space. Based on the TensorFlow framework, a data-driven model is established, and the data-driven model is trained using deep reinforcement learning strategy to realize posture control of a single soft arm. Finally, two trained soft arms are assembled into an octopus-inspired biped walking robot, which can go forward and turn around. Experimental analysis shows that the robot can achieve an average speed of 7.78 cm/s, and the maximum instantaneous speed can reach 12.8 cm/s.

Topics & Concepts

octopus (software)Computer scienceUnderwaterRobotSoft roboticsArtificial intelligenceComputer visionMarine engineeringGeologyOceanographyPhysicsEngineeringQuantum mechanicsSoft Robotics and ApplicationsModular Robots and Swarm IntelligenceRobotic Locomotion and Control
Bipedal Walking of Underwater Soft Robot Based on Data-Driven Model Inspired by Octopus | Litcius