The perturbation bounds for the solution of weighted Kronecker product linear systems using the \(W\)-weighted Drazin inverse
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Publication:815971
DOI10.1007/BF02831921zbMath1089.15003MaRDI QIDQ815971
Publication date: 20 February 2006
Published in: Journal of Applied Mathematics and Computing (Search for Journal in Brave)
Theory of matrix inversion and generalized inverses (15A09) Linear equations (linear algebraic aspects) (15A06) Conditioning of matrices (15A12)
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- Condition number for the Drazin inverse and the Drazin-inverse solution of singular linear system with their condition numbers
- The Kronecker product and stochastic automata networks
- Structured perturbations of Drazin inverse
- Structured perturbations of group inverse and singular linear system with index one
- A Drazin inverse for rectangular matrices
- Componentwise perturbation theory for linear systems with multiple right- hand sides
- Finite precision behavior of stationary iteration for solving singular systems
- The perturbation theory for the Drazin inverse and its applications
- Integral representation of the \(W\)-weighted Drazin inverse
- The representation and approximation of the \(W\)-weighted Drazin inverse of linear operators in Hilbert space.
- A note on the perturbation of the \(W\)-weighted Drazin inverse.
- The ubiquitous Kronecker product
- A weighted Drazin inverse and applications
- Generalized inverses: theory and computations
- A characterization for the \(W\)-weighted Drazin inverse and a Cramer rule for the \(W\)-weighted Drazin inverse solution
- On perturbation bounds of Kronecker product linear systems and their level-2 condition numbers
- The perturbation theory for the Drazin inverse and its applications II
- The Role of the Group Generalized Inverse in the Theory of Finite Markov Chains
- Structured Perturbations Part I: Normwise Distances
- Structured Perturbations Part II: Componentwise Distances
- Accuracy and Stability of Numerical Algorithms
- On the Compatibility of a Given Solution With the Data of a Linear System
