ROBUST CONTROL OF INERTIA LLY STABILIZED PLATFORMS FOR GROUND VEHICLES ON THE BASIS OF ∞ H -SYNTHESIS
Journal Title: Вісник Національного Авіаційного Університету - Year 2016, Vol 68, Issue 3
Abstract
Purpose: Operation of inertially stabilized platforms mounted on the ground vehicles is accompanied by influence of significant parametrical and various coordinate disturbances. To keep high operating characteristics of a system in such difficult conditions it is possible using approach to r obust system design. Creation of robust inertial stabilized platforms requires further research and development in contra st to design of robust systems of motion control. Methods: One of the modern approaches to robust system design proposed by modern control theory is H ∞ - synthesis. Problems, which are important for practical applic ations, it is convenient to solve using method of the mixed sensitivity as it takes into cons ideration conflicting design goals includi ng robust performance and stability. The method is combined with loop-shaping that allows ac hieving desired amplitude-frequency characteristics of the designed system. This is achieved by choice of the appropri ate weighting transfer functions, which define bounds of the designed system amplitude-frequency characteristics. Results: Grounded recommendations to the choice of components of inertially stabilized platforms operated on the ground vehicles are rep resented. The mathematical model of the system with gearless drive is developed. The optimization criterion is derived and weighting transfer functions are chosen. The structure of the robust controller in the form of quadruple of state space matrices is represented. Results of synthesised stab ilization system simulation show its resist ance to significant parametrical and coordinate disturbances taking place duri ng its operation on the ground vehicle. Conclusions: Efficiency of the proposed design approach is proved by results of simulati on in conditions of significant parametrical and coordinate disturbances. Obtained results can be widespread on inertially stabilized platforms operating on the other type of vehicles, for example, special aviation aircrafts, carryi ng out cartographic surveys, monitoring and other similar functions. They can be also useful for design of unmanned aerial vehicles equipment.
Authors and Affiliations
Olha Sushchenko
Keywords
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- EP ID EP461373
- DOI 10.18372/2306-1472.68.10906
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