Fractional-order IMC controller for high-order system using reduced-order modelling via Big-Bang, Big-Crunch optimisation
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Publication:5029183
DOI10.1080/00207721.2021.1942587zbMath1483.93046OpenAlexW3177124736MaRDI QIDQ5029183
Shivanagouda Biradar, Sahaj Saxena
Publication date: 11 February 2022
Published in: International Journal of Systems Science (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/00207721.2021.1942587
Feedback control (93B52) Frequency-response methods in control theory (93C80) Fractional derivatives and integrals (26A33) System structure simplification (93B11) Large-scale systems (93A15)
Related Items (2)
Model order reduction framework for discrete-time systems with error bound via balanced structure ⋮ Fractional-order PID controller design via optimal selection strategy of frequency domain specifications
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Cites Work
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- A fast adaptive model reduction method based on Takenaka-Malmquist systems
- \(H_2\) and \(H_\infty\) optimal model reduction using genetic algorithms
- Model order reduction using response-matching technique
- Model reduction by minimization of integral square error performance indices
- Model order reduction: Theory, research aspects and applications. Selected papers based on the presentations at the workshop `Model order reduction, coupled problems and optimization', Leiden, The Netherlands, September 19--23, 2005.
- Order reduction of linear systems using an error minimization technique
- Reduction of transfer functions by the stability-equation method
- Singular perturbations and order reduction in control theory - an overview
- A novel order diminution of LTI systems using big bang big crunch optimization and Routh approximation
- CRONE control: Principles and extension to time-variant plants with asymptotically constant coefficients
- Krylov subspace techniques for reduced-order modeling of large-scale dynamical systems
- Reduced-order modeling of linear time invariant systems using big bang big crunch optimization and time moment matching method
- An improved method using factor division algorithm for reducing the order of linear dynamical system
- Dimension reduction of large-scale systems. Proceedings of a workshop, Oberwolfach, Germany, October 19--25, 2003.
- Tuning algorithms for fractional order internal model controllers for time delay processes
- H∞ optimization-based fractional-order PID controllers design
- $\mathcal{H}_2$ Model Reduction for Large-Scale Linear Dynamical Systems
- Contributions to the model reduction problem
- Linear system reduction using Pade approximation to allow retention of dominant modes
- Routh approximations for reducing order of linear, time-invariant systems
- Modified Eigen Permutation-Based Model Simplification of LTI Systems Using Evolutionary Algorithm
- System reduction using eigen spectrum analysis and Padé approximation technique
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