Frequency weighted model order reduction technique and error bounds for discrete time systems
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Publication:1718549
DOI10.1155/2014/498453zbMath1407.93080OpenAlexW1992787404WikidataQ59067909 ScholiaQ59067909MaRDI QIDQ1718549
Publication date: 8 February 2019
Published in: Mathematical Problems in Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1155/2014/498453
Related Items (3)
Development of time-limited model reduction technique for one-dimensional and two-dimensional systems with error bound via balanced structure ⋮ Model reduction of descriptor systems using frequency limited Gramians ⋮ A frequency limited interval Gramians-based model reduction technique with error bounds
Cites Work
- Unnamed Item
- Weighted \(H_\infty \) model reduction for linear switched systems with time-varying delay
- Optimal Hankel-norm approximation of stable systems with first-order stable weighting functions
- Accuracy-enhancing methods for balancing-related frequency-weighted model and controller reduction.
- Frequency-weighted optimal Hankel-norm approximation of stable transfer functions
- An iterative SVD-Krylov based method for model reduction of large-scale dynamical systems
- Improved results on frequency-weighted balanced truncation and error bounds
- A generalised partial-fraction-expansion based frequency weighted balanced truncation technique
- All optimal Hankel-norm approximations of linear multivariable systems and theirL,∞-error bounds†
- Controller reduction: concepts and approaches
- An error bound for a discrete reduced order model of a linear multivariable system
- Model reduction via balanced realizations: an extension and frequency weighting techniques
- Principal component analysis in linear systems: Controllability, observability, and model reduction
- Numerical Solution of the Stable, Non-negative Definite Lyapunov Equation Lyapunov Equation
- A linear matrix inequality approach to H∞ control
- Linear Matrix Inequalities in System and Control Theory
- A new frequency-weighted balanced truncation method and an error bound
- A Survey of Model Reduction by Balanced Truncation and Some New Results
- H∞model reduction for discrete time-delay systems: delay-independent and dependent approaches
- Partial-Fraction Expansion Based Frequency Weighted Model Reduction Technique With Error Bounds
- Approximation of Large-Scale Dynamical Systems
- A partial Padé-via-Lanczos method for reduced-order modeling
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