Affiliation:
1. Department of Electrical and Electronics Engineering, Anadolu University, Eskişehir, Turkey
Abstract
Stable flow controllers are usually preferred since, compared with unstable flow controllers, they are less sensitive to any modelling imperfections. ℋ∞-optimal flow controllers involve finite impulse–response (FIR) filters due to the time delays which are inherent in any practical network. Therefore, design of a stable ℋ∞ flow controller is a difficult problem due to the infinite dimensionality of these FIR filters. In this work, finite-dimensional approximations of FIR filters are used to design stable ℋ∞ flow controllers. Three design approaches are considered and, for each approach, a different algorithm to design a stable ℋ∞ flow controller is developed. Controllers obtained by each agorithm are also compared against each other, as well as against the optimal controller, using an example case.
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