Robust pole clustering in a good ride quality region of aircraft for matrices with structured uncertainties |
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Authors: | Sheng-Guo Wang [Author Vitae] |
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Affiliation: | a Department of Engineering Technology and Department of Electrical and Computer Engineering, University of North Carolina at Charlotte, Charlotte, NC 28223-0001, USA |
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Abstract: | This paper presents a general analysis of robust pole clustering in a good ride quality region (GRQR) of aircraft for matrices with structured uncertainties. This region is an intersection of a ring and a horizontal strip, located in the left half-plane, which is a specific non-Ω-transformable region providing good ride quality of aircraft. The paper applies the Rayleigh principle along the norm theory to analyze robust pole clustering within this region since the generalized Lyapunov theory is not valid for non-Ω-transformable regions. Concerned uncertainties are structured/parametric uncertainties, including interval matrices. The results are useful for robust control analysis and design, especially, of robust good ride quality of aircraft, shuttles, vehicles and space station, as well as some industrial systems. An example of the F-16 dynamics for which GRQR is suitable is included to illustrate the results. |
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Keywords: | Robust pole clustering Robust performance Uncertain systems Analysis Flight control |
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