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Robotic force control for flexible assembly

H. Wapenhans, W. Seyfferth, Friedrich Pfeiffer

Year
2002
Citations
8

Abstract

The authors present a complete design procedure for determining an optimal force control for assembly tasks while assuring stability. Based on a constrained motion model of the robot, including elasticity of joints and force sensor, a custom design scheme may be applied for individual types of mating tasks. The approach guarantees separation of position and force controlled cartesian directions of the robot endpoint by complementary input/output decoupling. Position feedback parameters are optimized to obtain a maximum stability reserve and force feedback parameters are optimized to minimize settling time. Controller behavior is then predicted by the simulation of the potentially unsteady system dynamics including time-varying constraints on the workpiece. The design process is illustrated for a peg-in-hole insertion and verified by experimental results from a laboratory robot.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">&gt;</ETX>

Keywords

Decoupling (probability)Control theory (sociology)RobotCartesian coordinate systemComputer sciencePosition (finance)Settling timeControl engineeringSimulationEngineering

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