Indian Journal of Science and Technology

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Uncertain Systems Order Reduction by Modal Analysis Approach


Affiliations
1 Department of EEE, VITS College of Engineering, Sontyam, Anandapuram, Visakhapatnam - 531173, Andhra Pradesh, India
 

Objectives: Modeling of physical systems results in complex higher-order representation. It’s somewhat strenuous to process out with these intricate systems, in such conditions these large scale systems are approximated by relegated order model. Methods/Statistical Analysis: A system with bounded parameters but uncertain and having constant coefficients is termed as an interval system. In this jotting Modal analysis approach, order reduction technique has been used to demote the higher order system to its relegated order. Numerical examples are solved to show the supremacy of this advanced technique. Findings: By using the proposed method, the step response of original and reduced order uncertain systems are closer when compared to other methods. The relative integral square error values are also less as compared to other techniques. Application/Improvements: The relegated model acquired by this approach has its behavior homogeneous to the original system. The stability is vowed if the original system is stable. In order to depiction a controller for a higher order system it is quite arduous, so by using the order demotion technique it becomes more facile.

Keywords

Kharitonov’s Theorem, Modal Analysis Approach, Order Reduction and Stability Uncertain Systems.
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  • Uncertain Systems Order Reduction by Modal Analysis Approach

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Authors

Bogapurapu Gayatri
Department of EEE, VITS College of Engineering, Sontyam, Anandapuram, Visakhapatnam - 531173, Andhra Pradesh, India
Kalyana Kiran Kumar
Department of EEE, VITS College of Engineering, Sontyam, Anandapuram, Visakhapatnam - 531173, Andhra Pradesh, India
Akella Venkata Santosh Lakshmi
Department of EEE, VITS College of Engineering, Sontyam, Anandapuram, Visakhapatnam - 531173, Andhra Pradesh, India

Abstract


Objectives: Modeling of physical systems results in complex higher-order representation. It’s somewhat strenuous to process out with these intricate systems, in such conditions these large scale systems are approximated by relegated order model. Methods/Statistical Analysis: A system with bounded parameters but uncertain and having constant coefficients is termed as an interval system. In this jotting Modal analysis approach, order reduction technique has been used to demote the higher order system to its relegated order. Numerical examples are solved to show the supremacy of this advanced technique. Findings: By using the proposed method, the step response of original and reduced order uncertain systems are closer when compared to other methods. The relative integral square error values are also less as compared to other techniques. Application/Improvements: The relegated model acquired by this approach has its behavior homogeneous to the original system. The stability is vowed if the original system is stable. In order to depiction a controller for a higher order system it is quite arduous, so by using the order demotion technique it becomes more facile.

Keywords


Kharitonov’s Theorem, Modal Analysis Approach, Order Reduction and Stability Uncertain Systems.



DOI: https://doi.org/10.17485/ijst%2F2016%2Fv9i38%2F126543