Genetic Algorithm-Guided, Adaptive Model Order Reduction of Flexible Aircrafts
Autor: | Kapil Pant, Peter M. Suh, Jin Zhu, Yi Wang, Martin J. Brenner |
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Rok vydání: | 2017 |
Předmět: |
Model order reduction
020301 aerospace & aeronautics Computer science Flight dynamics (spacecraft) 010103 numerical & computational mathematics 02 engineering and technology Grid 01 natural sciences Linear parameter-varying control Reduction (complexity) 0203 mechanical engineering Control theory Genetic algorithm 0101 mathematics Interpolation |
Zdroj: | 58th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference. |
DOI: | 10.2514/6.2017-1598 |
Popis: | This paper presents a methodology for automated model order reduction (MOR) of flexible aircrafts to construct linear parameter-varying (LPV) reduced order models (ROM) for aeroservoelasticity (ASE) analysis and control synthesis in broad flight parameter space. The novelty includes utilization of genetic algorithms (GAs) to automatically determine the states for reduction while minimizing the trial-and-error process and heuristics requirement to perform MOR; balanced truncation for unstable systems to achieve locally optimal realization of the full model; congruence transformation for "weak" fulfillment of state consistency across the entire flight parameter space; and ROM interpolation based on adaptive grid refinement to generate a globally functional LPV ASE ROM. The methodology is applied to the X-56A MUTT model currently being tested at NASA/AFRC for flutter suppression and gust load alleviation. Our studies indicate that X-56A ROM with less than one-seventh the number of states relative to the original model is able to accurately predict system response among all input-output channels for pitch, roll, and ASE control at various flight conditions. The GA-guided approach exceeds manual and empirical state selection in terms of efficiency and accuracy. The adaptive refinement allows selective addition of the grid points in the parameter space where flight dynamics varies dramatically to enhance interpolation accuracy without over-burdening controller synthesis and onboard memory efforts downstream. The present MOR framework can be used by control engineers for robust ASE controller synthesis and novel vehicle design. |
Databáze: | OpenAIRE |
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