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Dynamic analysis of a bio-inspired climbing robot using ADAMS-Simulink co-simulation

Priyabrata Chattopadhyay, H. Dikshit, Anubhab Majumder, Sanjoy K. Ghoshal, Atanu Maity

Year
2018
Citations
4

Abstract

Climbing robot has been an area of interest since the demand of inspection of pipeline, nuclear power plant, and various big structure is growing up rapidly. This paper represents the development of a bio-inspired modular robot which mimics inchworm locomotion during climbing. In the present paper, the climbing motion is achieved only on a flat vertical plane by magnetic adhesion principle. The robot is modelled as a 4-link planar mechanism with three revolute joints actuated by DC servo motors. Sinusoidal gait pattern is used to approximate the motion of an inchworm. The dynamics of the robot is presented by using ADAMS/MATLAB co-simulation methodology. The simulation result gives the maximum value of joint torque during one complete cycle of motion. This torque value is used for the selection of servo motor specifications required to build the prototype.

Keywords

RobotRevolute jointTorqueClimbingPipeline (software)ServomotorComputer scienceControl theory (sociology)SimulationMotion control

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