Automatic simulation-based design and validation of robotic gripper fingers
Aswin K Ramasubramanian, Matthew Connolly, Robins Mathew, Nikolaos Papakostas
Abstract
The design of robotic gripper fingers is a complex process and often requires significant effort and time. This paper investigates a method to automatically generate new iterations of the gripper finger design as well as to validate its performance in a simulation environment. A Computer-Aided Design (CAD) software platform and a physics-based simulation framework are deployed to work in tandem to redesign and validate an initial gripper finger design aiming at reducing the overall time and cost required for physical validation. The proposed approach is validated in a real robotic case scenario, performing a series of pick and place tasks.
Topics & Concepts
CADProcess (computing)SoftwareComputer Aided DesignComputer scienceSimulationDesign processMechanical designEngineering design processEngineeringControl engineeringWork in processEngineering drawingMechanical engineeringOperations managementOperating systemProgramming languageRobot Manipulation and LearningManufacturing Process and OptimizationRobotic Mechanisms and Dynamics