Robust Control of Wiener Systems:Application to a pH neutralization process

OSVALDO ENRIQUE AGAMENNONI; SILVINA INES BIAGIOLA; JOSE LUIS FIGUEROA

BRAZILIAN JOURNAL OF CHEMICAL ENGINEERING

BRAZILIAN SOC CHEMICAL ENG

Lugar: BRASIL; Año: 2016 vol. 33 p. 145 - 153

0104-6632

In this paper, the robustness of a typical control scheme for Wiener systems is studied. These systems consist of the cascade connection of a linear time invariant system and a static nonlinearity. To control this kind of systems, several approaches were discussed in the literature. Most of these control schemes involve transformation of the measured variable as well as the setpoint by the inverse of the nonlinear gain.The approach followed in this work uses the inverse model of the static nonlinear gain while the uncertainty in the Wiener model is treated as a partitioned problem. The linear block is considered as a parameter-affine-dependent model and, on the other hand, the nonlinear block uncertainty is analyzed as a conic-sector. The robustness analysis is performed using mu-theory.The results are evaluated on the basis of a simulation of a pH neutralization process.