Design of Robust Systems for Stabilization of Unmanned Aerial Vehicle Equipment

The paper deals with the structural synthesis of robust system for stabilization of observation equipment operated on unmanned aerial vehicles. The model of the triaxial stabilization system taking into consideration necessary kinematic transformations is developed. The matrix weighting transfer functions ensuring design of the system with the desired amplitude-frequency characteristics of the system are chosen. The features of the robust structural synthesis for the researched system are considered. The structure and parameters of the robust controller, based on robust structural synthesis including the methods of the mixed sensitivity and loop-shaping, are obtained. The results of the synthesized system simulation are represented. The obtained results allow implementing stabilization of observation equipment in difficult conditions of real operation. This improves the quality of photography, mapping, survey, and so forth and gives advantages of accuracy for images representations of the territory flown. The obtained results are significant for stabilization of equipment operated at a moving base.

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  • Supplemental Notes:
    • © 2016 Olha Sushchenko and Andriy Goncharenko.
  • Authors:
    • Sushchenko, Olha
    • Goncharenko, Andriy
  • Publication Date: 2016

Language

  • English

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Filing Info

  • Accession Number: 01609396
  • Record Type: Publication
  • Files: TRIS
  • Created Date: Aug 30 2016 4:09PM