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A Novel Underactuated End-Effector for Planar Sequential Grasping of Multiple Objects

Caio Mucchiani, Mark Yim

Year
2020
Citations
9

Abstract

We propose a serpentine type tendon driven underactuated end-effector design with a closing mechanism that is triggered upon contact with an object. This end-effector can grasp objects without knowing the size a priori and is able to grasp a new object while securing another one previously grasped, and so grasp multiple objects sequentially with a single DOF actuation. Design parameters based on the object dimensions are proposed. A low-cost prototype demonstrates two implementations (radius estimation and autonomous grasp of circular objects by torque control, and sequential grasps of multiple objects) of the end-effector through several experiments. A method for estimating applied internal forces is also proposed. This end-effector can benefit robotic manipulation in tasks such as fetching applications, industrial pick-and-place of single or multiple objects and human-robot hand-off interactions.

Keywords

GRASPRobot end effectorUnderactuationObject (grammar)Computer scienceRobotGrippersA priori and a posterioriMechanism (biology)Artificial intelligence

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