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MANIPULATION

<title>Kinematically optimal robot placement for minimum time coordinated motion</title>

John T. Feddema

Year
1995
Citations
4

Abstract

This paper describes an algorithm for determining the optimal placement of a robotic manipulator within a workcell for minimum time coordinated motion. The algorithm uses a simple principle of coordinated motion to estimate the time of a joint interpolated motion. Specifically, the coordinated motion profile is limited by the slowest axis. Two and six degrees of freedom examples are presented. In experimental tests on a FANUC S-800 arm, the optimal placement of the robot can improve the cycle time of a robotic operation by as much as 25%. In high volume processes where the robot motion is currently the limiting factor, this increased throughput can result in substantial cost savings.

Keywords

WorkcellMotion (physics)RobotComputer scienceControl theory (sociology)Robotic armThroughputMotion controlRobot kinematicsLimiting

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