Litcius/Paper detail

Planar Variable Structure Cable-Driven Parallel Robots for Circumventing Obstacles

Mitchell Rushton, Amir Khajepour

2020Journal of Mechanisms and Robotics25 citationsDOI

Abstract

Abstract This article aims to address some of the current limitations of cable-driven parallel robots (CDPRs) by enabling regional changes in dynamic structure through collisions between cables and fixed objects placed in the work area (such as idler pulleys). This leads to the definition of a new class of robots referred to as variable structure cable-driven parallel robots (VSCRs). One of the major advancements from VSCRs is their ability to cover nonconvex reachable workspaces: a significant relaxation on the constraints of traditional CDPRs that is especially useful for circumventing obstacles and has implications for a wide range of applications. Specific examples of vertical farming and rehabilitation are demonstrated experimentally. It is shown that VSCRs can dramatically improve the reachability and accessible workspace of traditional CDPRs. In addition, an online method for solving the planar VSCR inverse kinematics problem is introduced, which is based on an extended cable model. The method is general and has been validated through experimental studies.

Topics & Concepts

WorkspaceReachabilityRobotComputer sciencePulleyKinematicsVariable (mathematics)PlanarParallel manipulatorRange (aeronautics)Distributed computingTopology (electrical circuits)Mechanical engineeringArtificial intelligenceEngineeringTheoretical computer scienceMathematicsPhysicsClassical mechanicsMathematical analysisAerospace engineeringComputer graphics (images)Electrical engineeringRobotic Mechanisms and DynamicsSoft Robotics and ApplicationsRobot Manipulation and Learning