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Configuration Tracking for Soft Continuum Robotic Arms Using Inverse Dynamic Control of a Cosserat Rod Model

Azadeh Doroudchi, Spring Berman

202124 citationsDOI

Abstract

Controlling the configuration of a soft continuum robot arm is challenging due to the hyper-redundant kinematics of such robots. We propose a new model-based, inverse dynamic control approach to this problem that is defined on the configuration state variables of the geometrically exact Cosserat rod model. Our approach is capable of controlling a soft continuum robot to track static or time-varying 3D configurations through bending, torsion, shear, and extension deformations. The controller has a decentralized structure, in which the gain matrices can be defined in terms of the physical and material properties of distinct cross-sections of the robot arm. This structure facilitates its implementation on continuum robot arms composed of independently-controllable segments that have local sensing and actuation. The controller is validated with numerical simulations in MATLAB with a hydrogel-based soft robot arm that can produce the four primary types of deformations. The simulated arm successfully tracks these configurations with average normalized root-mean-square errors (NRMSE) below 7% in all cases. To demonstrate the generality of the control approach, its performance is also validated on a larger simulated robot arm made of silicone.

Topics & Concepts

RobotRobotic armKinematicsControl theory (sociology)Computer scienceTorsion (gastropod)Inverse kinematicsSimulationPhysicsArtificial intelligenceClassical mechanicsControl (management)MedicineSurgerySoft Robotics and ApplicationsRobot Manipulation and LearningMicro and Nano Robotics
Configuration Tracking for Soft Continuum Robotic Arms Using Inverse Dynamic Control of a Cosserat Rod Model | Litcius