The Core-EP, Weighted Core-EP Inverse of Matrices and Constrained Systems of Linear Equations
From MaRDI portal
Publication:5099126
DOI10.4208/cmr.2020-0028OpenAlexW3127222251MaRDI QIDQ5099126
Publication date: 31 August 2022
Published in: Communications in Mathematical Research (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.4208/cmr.2020-0028
Theory of matrix inversion and generalized inverses (15A09) Matrix equations and identities (15A24) Inverse problems in linear algebra (15A29)
Related Items
Further characterizations of the weak group inverse of matrices and the weak group matrix, The full rank expressions for the \(W\)-weighted Drazin and core-EP inverse of a matrix and their applications, Sign pattern, usability, representations and perturbation for the core-EP and weighted core-EP inverse, Characterizations and perturbation analysis of a class of matrices related to core-EP inverses, The \(\mathfrak{m}\)-core-EP inverse in Minkowski space
Cites Work
- Unnamed Item
- On a generalized core inverse
- Core inverse and core partial order of Hilbert space operators
- A new method for computing Moore-Penrose inverse through Gauss-Jordan elimination
- Core-EP decomposition and its applications
- Gauss-Jordan elimination methods for the Moore-Penrose inverse of a matrix
- A condensed Cramer's rule for the minimum-norm least-squares solution of linear equations
- Full-rank representations of outer inverses based on the QR decomposition
- On a new generalized inverse for matrices of an arbitrary index
- A Drazin inverse for rectangular matrices
- A Cramer rule for least-norm solutions of consistent linear equations
- Bordering method to compute core-EP inverse
- Two inverse-of-\(N\)-free methods for \(A_{M,N}^\dagger\)
- The Drazin inverse of an even-order tensor and its application to singular tensor equations
- Weak group inverse
- Generalized inverses: theory and computations
- Using Gauss-Jordan elimination to compute the index, generalized nullspaces, and Drazin inverse
- Generalized inverses. Theory and applications.
- The core inverse and constrained matrix approximation problem
- Characterizations, iterative method, sign pattern and perturbation analysis for the DMP inverse with its applications
- An efficient method for computing the outer inverse \(A_{T,S}^{(2)}\) through Gauss-Jordan elimination
- Characterizations, approximation and perturbations of the core-EP inverse
- Determinantal representations of the core inverse and its generalizations with applications
- Optimal perturbation bounds for the core inverse
- Gauss-Jordan elimination method for computing outer inverses
- Computation of weighted Moore-Penrose inverse through Gauss-Jordan elimination on bordered matrices
- Explicit expressions of the generalized inverses and condensed Cramer rules
- Innovation based on Gaussian elimination to compute generalized inverse \(A_{T,S}^{(2)}\)
- Further properties on the core partial order and other matrix partial orders
- Characterizations of the core inverse and the core partial ordering
- A note of computation for M-P inverseA†
- Core inverse of matrices
- Representations and cramer rules for the solution of a restricted Matrix Equation∗
- Revisiting the core EP inverse and its extension to rectangular matrices
- A partial order on the set of complex matrices with index one
- Pseudo core inverses in rings with involution
- Characterizations and representations of the core inverse and its applications
- Displacement structure of the core inverse
- Three limit representations of the core-EP inverse
- Representations and properties of the W-weighted core-EP inverse
- A characterization and perturbation bounds for the weighted core-ep inverse
- Generalized Inverses of Linear Transformations
- Core–EP inverse
- On the Algebra of Networks
