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Task space robot control: convergence analysis and gravity compensation via integral feedback

M. Aicardi, Giorgio Cannata, Giuseppe Casalino

Year
2002
Citations
7

Abstract

The problem of the task level position and orientation regulation of the end-effector of a generic robot is discussed in this paper. A hierarchical control scheme is proposed, implementing task-level B-type position control loop (outer loop), and P or PI-type one operating at joint velocity level (inner loop). Finally it is proved that a suitable choice of the feedback gains always ensure for P-type inner loop, uniform ultimate boundedness of the errors, while using PI-type inner loop it is possible to prove the local asymptotic convergence to zero of the position and orientation errors.

Keywords

Control theory (sociology)Inner loopPosition (finance)Convergence (economics)Loop (graph theory)Compensation (psychology)Task (project management)Orientation (vector space)RobotFeedback loop

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