论文信息 - Two singular value inequalities and their implications in H ∞ approach to control system design

Two singular value inequalities and their implications in H ∞ approach to control system design

In this note we prove that if A and B are both nonnegative definite Hermitian matrices and A - B is also nonnegative definite, then the singular values of A and B satisfy the inequalities \sigma_{i}(A)\geq \sigma_{i}(B) , where \bar{\sigma}(\cdot) = \sigma_{1}(\cdot) \geq \sigma_{2}(\cdot) \geq '" \geq \sigma_{m}(\cdot) = \underbar{\sigma}(.) denote the singular values of a matrix. A consequence of this property is that, in a nonsquare H^{\infty} optimization problem, if \sup_{\omega} \bar{\sigma}[Z(j\sigma)] {\underline{\underline \Delta}} sup_{\omega} \bar{\sigma}[x(j\omega)^{T}/ Y(j\omega)^{T}]^{T} = \lambda , then the singular values of X and Y satisfy the inequality \lambda^{2} \geq max_{i} sup_{\omega} [\sigma_{i}^{2}(X) + \sigma_{m-i-1}^{2}(Y)] where m is the number of columns of the matrix Z .

Yung Foo

[1] H. Kwakernaak. Minimax Frequency Domain Optimization of Multivariable Linear Feedback Systems , 1984 .

[2] Bruce A. Francis,et al. Optimal disturbance attenuation with control weighting , 1985 .

[3] Ian Postlethwaite,et al. An H∞-minimax approach to the design of robust control systems , 1984 .