Title :
Frequency-weighted ℒ∞ norm and optimal Hankel norm model reduction
Author_Institution :
Dept. of Electr. & Comput. Eng., Louisiana State Univ., Baton Rouge, LA, USA
fDate :
10/1/1995 12:00:00 AM
Abstract :
A new relative error model reduction method is proposed using frequency-weighted balanced realization, and explicit L∞ norm error bounds are also derived for the relative error and multiplicative error. The method only needs to solve two Lyapunov equations. It is further shown that this method is equivalent to the balanced stochastic truncation if the plant is square and minimum phase. This paper also gives a complete solution to the frequency-weighted Hankel norm approximation with antistable weighting. These results are then applied to L∞ norm model reduction, and several numerically effective algorithms are proposed. It is shown through many numerical examples that these algorithms work very well and in many cases produce almost optimal solutions
Keywords :
Hankel matrices; Lyapunov methods; linear systems; multivariable systems; optimal control; reduced order systems; state-space methods; transfer function matrices; Hankel norm approximation; L∞ norm error bounds; Lyapunov equations; antistable weighting; frequency-weighted model reduction; linear systems; multivariable dynamical systems; relative error model reduction; state space method; transfer matrix; Approximation error; Approximation methods; Binary search trees; Equations; Frequency; Reduced order systems; Stochastic processes;
Journal_Title :
Automatic Control, IEEE Transactions on
