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Turning Locomotion Analysis and Performance Evaluation for a Spherical Underwater Robot

Shuoxin Gu, Shuxiang Guo, Liang Zheng, Ruochen An

Year
2019
Citations
3

Abstract

Although the spherical underwater robot has the advantage of 0 radius for the turning locomotion, a variable radius of turning locomotion is also necessary for the path planning and obstacle avoidance of an underwater robot. This paper focused on the turning locomotion with variable radius for the forth-generation spherical underwater robot (SUR IV) with the hybrid propulsion device. The hybrid propulsion device could be controlled by PWM signals to modify the thrust and linear velocity. The motion state of the turning locomotion was developed in different radius. The centripetal force of curve motion is also analyzed by Newton's first law. The relationship between the centripetal force and turning radius was proposed. In order to verify the turning locomotion with different turning radius, the experiment was carried out in the swimming pool. The experimental results show that the change of the turning radius can be achieved by adjusting the control input PWM signal of the main thruster and the assist thruster.

Keywords

Turning radiusCentripetal forcePropulsionRADIUSThrustControl theory (sociology)RobotEngineeringUnderwaterSimulation

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