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MANIPULATION

Robust control of a mobile manipulator-dynamic modeling approach

Jae H. Chung, Steven A. Velinsky

Year
1999
Citations
6

Abstract

Discusses the dynamic modeling and robust control of a spatial mobile manipulator which consists of a robotic manipulator mounted upon a wheeled mobile platform. By considering slip of the wheeled platform's tires, the assumption of nonholonomic motion is violated. The dynamic equations of motion are derived using the Newton-Euler method and incorporate a nonlinear tire friction model. Then, a robust control method is developed to eliminate the harmful effect of the wheel slip on the tracking performance. The effectiveness of the proposed control algorithm is demonstrated through computer simulation.

Keywords

Mobile manipulatorNonholonomic systemControl theory (sociology)Computer scienceMobile robotNonlinear systemMotion controlControl engineeringSlip (aerodynamics)Robust control

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