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H/sub infinity / control of a flexible robotic arm (effect on parameter uncertainties on stability)

Atsushi Arakawa, Toshio Fukuda, F. Hara

Year
2002
Citations
4

Abstract

Describes the stability of a flexible robotic arm when its mathematical model contains parameter uncertainties. The authors employ the H/sub infinity / control method which includes the LQ optimal control, and is robust. To estimate the stability domain of a closed-loop system, one must find the rate at which the system matrix A and the control matrix B change when a parameter changes. These rates are difficult to find, because the elements of the matrices change nonlinearly when the parameter changes. They calculate the rates approximately and obtain the stability domain by using the Routh condition. They also show some simulation results, demonstrating that the modeled stability domain of the one-degree-of-freedom flexible arm can be enlarged by appropriately choosing the arbitrary matrices of the H/sub infinity / control law.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">&gt;</ETX>

Keywords

Stability (learning theory)InfinityDomain (mathematical analysis)Control theory (sociology)Matrix (chemical analysis)MathematicsH-infinity methods in control theoryComputer scienceRobotic armApplied mathematics

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