A modulus-based multigrid method for image retinex
From MaRDI portal
Publication:1995948
DOI10.1016/J.APNUM.2020.11.011zbMath1461.90155OpenAlexW3106952927MaRDI QIDQ1995948
Publication date: 2 March 2021
Published in: Applied Numerical Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.apnum.2020.11.011
Applications of mathematical programming (90C90) Complementarity and equilibrium problems and variational inequalities (finite dimensions) (aspects of mathematical programming) (90C33)
Related Items (1)
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- A reduced Newton method for constrained linear least-squares problems
- Retinex by higher order total variation \(L^1\) decomposition
- Solution of nonsymmetric, linear complementarity problems by iterative methods
- The convergence of parallel iteration algorithms for linear complementarity problems
- A variational framework for retinex
- Modulus-based synchronous two-stage multisplitting iteration methods for linear complementarity problems
- Accelerated modulus-based matrix splitting iteration methods for a restricted class of nonlinear complementarity problems
- 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 Variational Model with Barrier Functionals for Retinex
- On the monotone convergence of matrix multisplitting relaxation methods for the linear complementarity problem
- Matrix multisplitting relaxation methods for linear complementarity problems
- Power-Constrained Contrast Enhancement Algorithm Using Multiscale Retinex for OLED Display
- Modulus‐based multigrid methods for linear complementarity problems
- On the Convergence of the Multisplitting Methods for the Linear Complementarity Problem
- Matrix Multisplitting Methods with Applications to Linear Complementarity Problems∶ Parallel Asynchronous Methods
- 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
This page was built for publication: A modulus-based multigrid method for image retinex
