A new technique for the reduced-order modelling of linear dynamic systems and design of controller
From MaRDI portal
Publication:831544
DOI10.1007/s00034-020-01412-yzbMath1485.93099OpenAlexW3015312780MaRDI QIDQ831544
V. G. Durgarao Rayudu, Arvind Kumar Prajapati, Rajendra Prasad, Afzal Sikander
Publication date: 23 March 2022
Published in: Circuits, Systems, and Signal Processing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00034-020-01412-y
transfer functionmodel order reductionhigher order systemsimproved Padé approximationintegral square errormoment matching algorithmRouth stability method
Lyapunov and other classical stabilities (Lagrange, Poisson, (L^p, l^p), etc.) in control theory (93D05) Linear systems in control theory (93C05) System structure simplification (93B11)
Related Items
A new generalized pole clustering-based model reduction technique and its application for design of controllers ⋮ Linear system of order reduction using a modified balanced truncation method ⋮ Model order reduction of positive real systems based on mixed Gramian balanced truncation with error bounds
Cites Work
- Unnamed Item
- Unnamed Item
- Application of multilevel scheme and two level discretization for POD based model order reduction of nonlinear transient heat transfer problems
- Reduction of transfer functions by the stability-equation method
- Model reduction using the stability-equation method and the Padé approximation method
- On the synthesis of optimum linear feedback control systems
- Clustering approach to model order reduction of power networks with distributed controllers
- Pade type model order reduction for multivariable systems using routh approximation
- Structure-preserving-based model-order reduction of parameterized interconnect systems
- A new model reduction method for the linear dynamic systems and its application for the design of compensator
- Exponential synchronization for stochastic neural networks with multi-delayed and Markovian switching via adaptive feedback control
- Linear time-invariant system reduction using a mixed methods approach
- Biased reduction method by combining improved modified pole clustering and improved Pade approximations
- Delay and its time-derivative-dependent model reduction for neutral-type control system
- Methods of model reduction for large-scale biological systems: a survey of current methods and trends
- Factor division: a useful algorithm in model reduction
- Model reduction using the stability-equation method and the continued-fraction method
- Principal component analysis in linear systems: Controllability, observability, and model reduction
- Linear model reduction using Mihailov criterion and Padé approximation technique
- Contributions to the model reduction problem
- Stable reduced-order models using Padé-type approximations
- Linear system reduction using Pade approximation to allow retention of dominant modes
- Model reduction by Routh approximations
- A Schur method for balanced-truncation model reduction
- Simplification of linear time-invariant systems by moment approximants †
- A note on low-order modeling
- All optimal Hankel-norm approximations and their error bounds in discrete-time
