论文信息 - Simulation Assessment of the Performance of a Redundant SCARA

Simulation Assessment of the Performance of a Redundant SCARA

The present paper analyses the potential dynamic performance of a novel redundant SCARA robot, currently at the stage of a functional design proposed by a renowned robot manufacturer. The static and dynamic manipulability of the new concept is compared with the conventional model of the same manufacturer by means of computer simulation in typical pick and place tasks arising from industry. The introduction of a further revolute joint in the SCARA robot kinematics leads to some improvements in the kinematic and dynamic behaviour at the expense of a greater complexity. In this paper, the potential of a redundant SCARA architecture in cutting cycle-times is investigated for the first time in performing several tasks. It is shown that, in order to exploit the possible enhancements of the redundant structure, the whole manipulator, mechanics and control must be redesigned according to specific tasks aiming at the optimization of their cycle-time.

Roberto Bussola | Giovanni Legnani | Matteo-Claudio Palpacelli | Giacomo Palmieri | Massimo Callegari

[1] Charles Pinto,et al. A symmetric parallel Schönflies-motion manipulator for pick-and-place operations , 2011, Robotica.

[2] Xin-Jun Liu,et al. Design and Development of a High-Speed and High-Rotation Robot With Four Identical Arms and a Single Platform , 2015 .

[3] Sarosh H. Patel,et al. Manipulator Performance Measures - A Comprehensive Literature Survey , 2015, J. Intell. Robotic Syst..

[4] Marco Carricato. Fully Isotropic Four-Degrees-of-Freedom Parallel Mechanisms for Schoenflies Motion , 2005, Int. J. Robotics Res..

[5] Corrado Guarino Lo Bianco,et al. Nonlinear filters for the generation of smooth trajectories , 2000, Autom..

[6] Claudio Urrea,et al. Joints Position Estimation of a Redundant Scara Robot by Means of the Unscented Kalman Filter and Inertial Sensors , 2016 .

[7] Dario Richiedei,et al. Trajectory Design for Energy Savings in Redundant Robotic Cells , 2019, Robotics.

[8] Tsuneo Yoshikawa,et al. Manipulability of Robotic Mechanisms , 1985 .

[9] Vijay Kumar,et al. Optimal Design of Fuzzy Fractional Order PIλDµ Controller for Redundant Robot , 2018 .

[10] Hermes Giberti,et al. Cheope: A new reconfigurable redundant manipulator , 2010 .