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Design and Control of Pneumatic Systems for Soft Robotics: A Simulation Approach

Matheus S. Xavier, Andrew J. Fleming, Yuen Kuan Yong

2021IEEE Robotics and Automation Letters59 citationsDOI

Abstract

Pressure control plays a major role in the overall performance of fluid-driven soft robots. Due to the increasing demand for higher speed actuation and precision, a need exists for a practical design methodology that converts actuator performance specifications to a set of minimum pneumatic specifications, such as receiver volume and pressure, and valve conductance. This article presents a systematic parameter selection approach for pneumatic soft robotic systems by taking into consideration the desired closed-loop pressure responses. The two controllers under evaluation here are the PI controller with anti-windup and the on-off controller with hysteresis. Simulations are developed within Simscape Fluids to evaluate the effect of physical components and controller parameters on the actuator performance. The proposed parameter selection procedures are then applied on three soft actuators and their closed-loop pressure responses are experimentally evaluated. The measured pressure responses are in close agreement with the simulations and satisfy the rise time specifications.

Topics & Concepts

ActuatorControl theory (sociology)Pneumatic actuatorController (irrigation)Soft roboticsControl engineeringRobotPressure controlSet (abstract data type)RoboticsPID controllerComputer scienceEngineeringControl systemSimulationControl (management)Mechanical engineeringArtificial intelligenceTemperature controlProgramming languageElectrical engineeringBiologyAgronomySoft Robotics and ApplicationsTeleoperation and Haptic SystemsHydraulic and Pneumatic Systems
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