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An Algebraic Formula for Performance Bounds of a Weighted $\mathcal {H}_\infty$ Optimal Control Problem

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This article provides performance bounds for a particular $\mathcal {H}_\infty$ model-matching problem. We consider scalar linear time-invariant plants in a one-degree-of-freedom control loop. We obtained explicit expressions for the Gramians… Click to show full abstract

This article provides performance bounds for a particular $\mathcal {H}_\infty$ model-matching problem. We consider scalar linear time-invariant plants in a one-degree-of-freedom control loop. We obtained explicit expressions for the Gramians needed when Nehari's theorem is applied to this problem, leading to a simple algebraic equation for the optimal performance. This formula sheds light upon the effect that nonminimum-phase zeros have on the optimal performance and yields easily computable bounds and approximations.

Keywords: control; performance; performance bounds; mathcal infty; problem; formula

Journal Title: IEEE Transactions on Automatic Control
Year Published: 2021

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