Litcius/Paper detail

Variable Stiffness and Antagonist Actuation for Cable-Driven Manipulators Inspired by the Bird Neck

Vimalesh Muralidharan, Nicolas J. S. Testard, Christine Chevallereau, Anick Abourachid, Philippe Wenger

2023Journal of Mechanisms and Robotics19 citationsDOIOpen Access PDF

Abstract

Abstract This paper discusses stiffness and antagonistic actuation in light-weight cable-driven bio-inspired manipulators suitable for safe interactions. Manipulators under study are built upon arranging in series several tensegrity joints, called “modules.” A comparative study of several modules revealed that the X module, in contrast to modules based on pivots, allows one to increase joint stiffness by increasing antagonistic input forces like during muscle coactivation. For a planar manipulator with N modules, antagonistic actuation schemes with 2N and N + 1 cables are proposed and compared. It is shown that the N + 1 cable actuation scheme allows controlling both the manipulator configuration and joint stiffness satisfactorily. As compared with a manipulator with 2N active cables, one on each side of each module, higher forces are required to achieve the manipulator configuration. However, the N + 1 cable actuation scheme is a reasonable solution that allows reducing the moving masses and cost.

Topics & Concepts

TensegrityStiffnessActuatorControl theory (sociology)Manipulator (device)PlanarParallel manipulatorScheme (mathematics)CoactivationPulleyJoint stiffnessComputer scienceMechanism (biology)Structural engineeringEngineeringRobotMathematicsPhysicsArtificial intelligenceControl (management)PsychologyComputer graphics (images)PsychiatryQuantum mechanicsMathematical analysisElectromyographyStructural Analysis and OptimizationModular Robots and Swarm IntelligenceSoft Robotics and Applications