Title :
Partial-Fraction Expansion Based Frequency Weighted Model Reduction Technique With Error Bounds
Author :
Ghafoor, Abdul ; Sreeram, Victor
Author_Institution :
Univ. of Western Australia, Perth
Abstract :
In this technical note, we present a new frequency weighted balancing related technique which is based on a parametrized combination of the unweighted balanced truncation technique [9] ,[8] and the partial fraction expansion technique [11] . The reduced-order models which are guaranteed to be stable in the case of double-sided weighting, are obtained by either direct truncation or singular perturbation approximation. Simple, elegant and easily computable a priori error bounds are also derived. Numerical examples and comparison with other well-known techniques show the effectiveness of the proposed technique.
Keywords :
continuous systems; discrete systems; perturbation techniques; reduced order systems; frequency weighted balancing related technique; frequency weighted model reduction technique; partial-fraction expansion technique; reduced-order models; singular perturbation approximation; unweighted balanced truncation technique; Approximation error; Australia Council; Error correction; Frequency; Optimal control; Optimization methods; Reduced order systems; Stability; Time invariant systems; Transfer functions; Controller reduction; frequency weights; model-order reduction; partial fraction expansion;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2007.906231
