The paper presents an efficient procedure for synthesizing PID controllers so as to maximize Smith’s vector stability margin, i.e., to minimize the H∞ norm of the sensitivity function, while ensuring specified values of the phase margin and gain crossover frequency. In this way, a trade-off between dynamic performance and robustness is achieved. The considered problem would be hard to solve with existing techniques; the suggested method, instead, leads to the desired result with remarkable computational simplicity, as shown by meaningful examples.

Constrained H-infinity design of PID controllers

BLANCHINI, Franco;MIANI, Stefano;VIARO, Umberto
2005-01-01

Abstract

The paper presents an efficient procedure for synthesizing PID controllers so as to maximize Smith’s vector stability margin, i.e., to minimize the H∞ norm of the sensitivity function, while ensuring specified values of the phase margin and gain crossover frequency. In this way, a trade-off between dynamic performance and robustness is achieved. The considered problem would be hard to solve with existing techniques; the suggested method, instead, leads to the desired result with remarkable computational simplicity, as shown by meaningful examples.
2005
9783211265376
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/851269
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