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A Validated Physical Model For Real-Time Simulation of Soft Robotic Snakes

Renato Gasoto, Miles Macklin, Xuan Liu, Yinan Sun, Kenny Erleben, Çağdaş D. Önal, Jie Fu

Year
2019
Citations
13

Abstract

In this work we present a framework that is capable of accurately representing soft robotic actuators in a multiphysics environment in real-time. We propose a constraint-based dynamics model of a 1-dimensional pneumatic soft actuator that accounts for internal pressure forces, as well as the effect of actuator latency and damping under inflation and deflation and demonstrate its accuracy a full soft robotic snake with the composition of multiple 1D actuators. We verify our model's accuracy in static deformation and dynamic locomotion open-loop control experiments. To achieve real-time performance we leverage the parallel computation power of GPUs to allow interactive control and feedback.

Keywords

ActuatorComputer scienceMultiphysicsComputationReal-time simulationRobotControl theory (sociology)Leverage (statistics)SimulationControl engineering

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