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Modeling, Calibration, and Evaluation of a Tendon-Actuated Planar Parallel Continuum Robot

Kathrin Nuelle, Tim Sterneck, Sven Lilge, Dezhu Xiong, Jessica Burgner-Kahrs, Tobias Ortmaier

2020IEEE Robotics and Automation Letters45 citationsDOIOpen Access PDF

Abstract

In this work, a novel planar parallel continuum robot (PCR) is introduced, consisting of three kinematic chains that are coupled at a triangular end-effector platform and include tendon-actuated continuum segments. The kinematics of the resulting structure are derived by adapting the descriptions for conventional planar parallel manipulators to include constant curvature bending of the utilized continuous segments. To account for friction and non-linear material effects, a data-driven model is used to relate tendon displacements and curvature of the utilized continuum segments. A calibration of the derived kinematic model is conducted to specifically represent the constructed prototype. This includes the calibration of geometric parameters for each kinematic chain and for the end-effector platform. During evaluation, positioning repeatability of 1.0% in relation to one continuum segment length of the robot, and positioning accuracy of 1.4%, are achieved. These results are comparable to commonly used kineto-static modeling approaches for PCR. The presented model achieves high path accuracies regarding the robot's end-effector pose in an open-loop control scenario.

Topics & Concepts

KinematicsPlanarParallel manipulatorConstant curvatureCurvatureRobot end effectorRobotComputer scienceRobot calibrationCalibrationControl theory (sociology)Robot kinematicsSimulationTopology (electrical circuits)Artificial intelligenceEngineeringGeometryPhysicsMathematicsClassical mechanicsMobile robotControl (management)Computer graphics (images)Quantum mechanicsElectrical engineeringSoft Robotics and ApplicationsRobot Manipulation and LearningTeleoperation and Haptic Systems
Modeling, Calibration, and Evaluation of a Tendon-Actuated Planar Parallel Continuum Robot | Litcius