A Modulus Iteration Method for SPSD Linear Complementarity Problem Arising in Image Retinex
DOI10.4208/aamm.OA-2019-0207zbMath1488.65147OpenAlexW2999213839MaRDI QIDQ5156961
Publication date: 12 October 2021
Published in: Advances in Applied Mathematics and Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.4208/aamm.oa-2019-0207
Numerical mathematical programming methods (65K05) Computing methodologies for image processing (68U10) Complementarity and equilibrium problems and variational inequalities (finite dimensions) (aspects of mathematical programming) (90C33) Image processing (compression, reconstruction, etc.) in information and communication theory (94A08)
Related Items (3)
Cites Work
- Unnamed Item
- Unnamed Item
- Modulus-based iterative methods for constrained Tikhonov regularization
- Issues about retinex theory and contrast enhancement
- Retinex by higher order total variation \(L^1\) decomposition
- Solution of nonsymmetric, linear complementarity problems by iterative methods
- On the convergence of a basic iterative method for the implicit complementarity problem
- Solution of symmetric linear complementarity problems by iterative methods
- A variational framework for retinex
- On linear convergence of iterative methods for the variational inequality problem
- A TV Bregman iterative model of Retinex theory
- Modulus-Type Inner Outer Iteration Methods for Nonnegative Constrained Least Squares Problems
- A Total Variation Model for Retinex
- Modulus-based matrix splitting iteration methods for linear complementarity problems
- A modulus iteration method for retinex problem
- A Variational Model with Barrier Functionals for Retinex
- Power-Constrained Contrast Enhancement Algorithm Using Multiscale Retinex for OLED Display
- Non-Local Retinex---A Unifying Framework and Beyond
- Convergence Properties of Iterative Methods for Symmetric Positive Semidefinite Linear Complementarity Problems
- A PDE Formalization of Retinex Theory
- Local Edge-Preserving Multiscale Decomposition for High Dynamic Range Image Tone Mapping
- The Solution of a Quadratic Programming Problem Using Systematic Overrelaxation
- Scale Space and PDE Methods in Computer Vision
This page was built for publication: A Modulus Iteration Method for SPSD Linear Complementarity Problem Arising in Image Retinex
