A course of H∞0Econtrol theory
A course of H∞0Econtrol theory
Identification of linear systems: a practical guideline to accurate modeling
Identification of linear systems: a practical guideline to accurate modeling
H2 optimal control for sampled-data systems
Systems & Control Letters
Control of Uncertain Sampled-Data Systems
Control of Uncertain Sampled-Data Systems
Discrete Linear Control: The Polynomial Equation Approach
Discrete Linear Control: The Polynomial Equation Approach
Optimal Sampled-Data Control Systems
Optimal Sampled-Data Control Systems
Feedback Control Theory
Extrapolation, Interpolation, and Smoothing of Stationary Time Series
Extrapolation, Interpolation, and Smoothing of Stationary Time Series
H2 optimal linear robust sampled-data filtering design using polynomial approach
IEEE Transactions on Signal Processing
Optimal linear filtering under parameter uncertainty
IEEE Transactions on Signal Processing
Robust H2 filtering for uncertain systems withmeasurable inputs
IEEE Transactions on Signal Processing
Reliable guaranteed variance filtering against sensor failures
IEEE Transactions on Signal Processing
Brief On the sampled-data H∞ filtering problem
Automatica (Journal of IFAC)
Robust deconvolution for ARMAX models with Gaussian uncertainties
Signal Processing
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The multivariable H2 guaranteed robust minimum variance parallel model design problem subjected to norm bounded uncertainties is studied in this paper for sampled-data systems. It consists of two paths connected in parallel with a common stationary stochastic input. One of them has an unknown system to be designed despite the presence of disturbances, so that the output signal of the two paths is of minimum variance. The systems and noise models are assumed to be represented by polynomial matrices that are not perfectly known except that they belong to a certain set. The sampled-data design is based on a fast sampling and lifting technique resulting on a finite-dimensional filter. An application case of robust parallel model design to the feedforward load-frequency control on hydro-generating units is provided.