Title :
Application of optimal trajectory algorithms to a solar-panel handling industrial manipulator: A case study
Author :
Krishnasamy, Jayaraman ; Hosek, Martin ; Moura, Jairo
Author_Institution :
Brooks Autom., Chelmsford, MA, USA
Abstract :
Several algorithms have been proposed in the last 25 years on the problem of generating time-optimal trajectories for robot manipulators along specified paths. This article describes an application of an optimal trajectory algorithm to an industrial manipulator used in the transfer of solar panel substrates between process modules. These manipulators operate in a vacuum environment and have constraints on substrate accelerations as well as available motor torques. The article shows that a trajectory profile optimized for both substrate acceleration and motor torques can reduce substrate transport time by 25 percent over the commonly used “S-curve” based algorithms.
Keywords :
acceleration control; industrial manipulators; materials handling; position control; torque control; S-curve based algorithms; industrial manipulator; motor torques; optimal trajectory algorithm; robot manipulators; solar-panel handling; substrate accelerations; trajectory profile; Acceleration; Manipulators; Optimization; Substrates; Torque; Trajectory; industrial manipulator; motor torque; substrate acceleration; time-optimal trajectory;
Conference_Titel :
Technologies for Practical Robot Applications (TePRA), 2011 IEEE Conference on
Conference_Location :
Woburn, MA
Print_ISBN :
978-1-61284-482-4
DOI :
10.1109/TEPRA.2011.5753479
