Near Optimal Interpolation based Time-Limited Model Order Reduction

Abstract

This paper presents an interpolatory framework for time-limited H2 optimal model order reduction named Limited Time Iterative Rational Krylov Algorithm (LT-IRKA). The algorithm yields high fidelity reduced order models over limited time intervals of the form, bmatrix0 & τ bmatrix with τ < ∞ for linear time invariant (LTI) systems. Using the time limited H2 norm, we derive interpolation based H2,τ optimality conditions. The LT-IRKA yields a near optimal H2(τ) reduced order system. The nearness to the exact H2(τ) optimal reduced system is quantized in terms of the errors in the interpolation based H2(τ) optimality conditions. We demonstrate with numerical examples how the proposed algorithm nearly satisfies the time-limited optimality conditions and also how it performs with respect to the Time-Limited Two sided Iteration Algorithm (TL-TSIA), the Time-Limited Balanced Truncation (TL-BT), the Iterative Rational Krylov Algorithm (IRKA) and the Time-Limited Pseudo Optimal Rational Krylov (TL-PORK) Algorithm over a finite time interval.

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