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Automated System of Stabilization and Position Control of Aviation Equipment
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Author(s): Olha Sushchenko (National Aviation University, Ukraine)
Copyright: 2019
Pages: 34
Source title:
Automated Systems in the Aviation and Aerospace Industries
Source Author(s)/Editor(s): Tetiana Shmelova (National Aviation University, Ukraine), Yuliya Sikirda (Kirovograd Flight Academy of the National Aviation University, Ukraine), Nina Rizun (Gdansk University of Technology, Poland), Dmytro Kucherov (National Aviation University, Ukraine)and Konstantin Dergachov (National Aerospace University – Kharkiv Aviation Institute, Ukraine)
DOI: 10.4018/978-1-5225-7709-6.ch011
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Abstract
In this chapter, the author presents the problems of design of the robust automated system for stabilization and control of platforms with aircraft observation equipment. The mathematical model of the triaxial stabilized platform is developed. The procedure of synthesis of robust stabilization system based on robust structural synthesis is represented. The above-mentioned procedure uses loop-shaping approach and method of the mixed sensitivity. The matrix weighting transfer functions are obtained. The optimization programs in MatLab are developed. The developed procedures are approved based on the results of simulation by means of the appropriate Simulink model. The obtained results can be useful for unmanned aerial vehicles and aircraft of special aviation, which are used for monitoring technical objects and aerial photography. The technical contributions are procedures of the robust controller design represented as the flowchart. The proposed approach is validated by application of the theoretical suppositions to the concrete example and appropriate simulation results.
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