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Robust servo design with applications

Robust servo design with applications

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IEE Proceedings D (Control Theory and Applications) — Recommend this title to your library

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© The Institution of Electrical Engineers
Published

An optimal multivariable proportional-integral (PI) controller with preassigned eigen spectrum is designed so that the system output would track constant reference inputs in spite of constant but unknown plant disturbances. A sequential strategy for modal servomechanism design is given for the above problem. In addition, since the proposed PI controller is of state feedback type, an observer capable of estimating the unmeasurable state variables in spite of the presence of unknown disturbances is introduced, thus resulting in a suboptimal overall system. The separation property for the overall servo/observer system is illustrated. The design strategy is successfully used for position control of a brushless DC motor, and in a regulator mode for controlling a headbox which is an integral part of the modern paper machines used in the pulp and paper industry.

Inspec keywords: optimal control; position control; multivariable control systems; two-term control; paper industry; servomechanisms

Other keywords: pulp industry; paper machines; paper industry; modal servomechanism design; position control; separation property; constant reference inputs; state feedback type; suboptimal overall system; regulator mode; plant disturbances; unmeasurable state variables; preassigned eigenspectrum; design strategy; optimal multivariable PI controller

Subjects: Multivariable control systems; Control applications in wood-processing, pulp and paper industries; Optimal control; Spatial variables control; Electric actuators and final control equipment; Control technology and theory (production); Paper and pulp industries; Instrumentation

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