Litcius/Paper detail

Energy-Shaping Controllers for Soft Robot Manipulators Through Port-Hamiltonian Cosserat Models

Brandon Caasenbrood, A. Pogromsky, Henk Nijmeijer

2022SN Computer Science17 citationsDOIOpen Access PDF

Abstract

Abstract In this work, we discuss the application of energy-based controller design for under-actuated soft robot manipulators. The continuous dynamics of the soft robot are modeled through the differential geometry of Cosserat beams. Using a finite-dimensional truncation, the system can be written as a reduced port-Hamiltonian model that preserves the passivity condition. Then, a model-based controller is introduced that produces a local minimizer of closed-loop potential energy for the desired end-effector configuration. The stabilizing control utilizes an energy-based approach and exploits the passivity of the soft robotic system. The effectiveness of the energy-based controller is demonstrated through extensive simulations of various soft robotic systems that share a resemblance with biology. All software and numerical studies are provided in an open-access SOROTOKI toolkit written in Matlab.

Topics & Concepts

PassivityControl theory (sociology)RobotControl engineeringHamiltonian (control theory)MATLABComputer scienceMechanical systemHamiltonian systemController (irrigation)EngineeringMathematicsPhysicsArtificial intelligenceClassical mechanicsControl (management)Mathematical optimizationBiologyElectrical engineeringOperating systemAgronomyControl and Stability of Dynamical SystemsMicro and Nano RoboticsSoft Robotics and Applications
Energy-Shaping Controllers for Soft Robot Manipulators Through Port-Hamiltonian Cosserat Models | Litcius