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M. Hemedi, A. Schirrer, C. Westermayer, M. Kozek:
"Integrated input-output selection strategy for robust control of complex parameter varying systems";
Talk: 10th International Conference on Motion and Vibration Control (MOVIC 2010), Tokyo, Japan; 2010-08-17 - 2010-08-20; in: "Proceedings of the 10th International Conference on Motion and Vibration Control", Japan Society of Mechanical Engineers JSME, No. 10-203, Tokyo, Japan (2010), Paper ID 3B13, 11 pages.

The selection of optimal inputs and outputs from larger candidate sets is an important prerequisite for an effective robust control application. This is especially true for active damping of complex and high-dimensional multi-input multi-output systems (MIMO) with flexible modes. Existing optimal selection strategies are based on a single nominal system model and cannot explicitly consider parameter
variations in the system. Consequently, an optimal selection for the nominal plant may perform poor for a different parameter setting or even render the closed-loop system unstable. The proposed integrated input-output (I/O) selection strategy overcomes this problem by explicitly considering a set of systems covering the range of parameter variation. It is structured in three consecutive selection steps, where only the subset of accepted candidates is fed into the subsequent selection; thus, it is also computationally efficient. An additional advantage is a quantitative ranking of the final candidates, which enables the control engineer to make an optimal I/O choice. The method is illustrated by a flexible beam example as well as a blended wing-body large passenger aircraft model.

Optimal I/O selection, flexible structure, robust control

Project Head Martin Kozek:
Aktive Regelung für ein flexibles 2020 Flugzeug