Colour level set regularization for the electromagnetic imaging of highly discontinuous parameters in 3D
DOI10.1080/17415977.2020.1797003zbMath1470.78004OpenAlexW3045610848MaRDI QIDQ5153270
Publication date: 29 September 2021
Published in: Inverse Problems in Science and Engineering (Search for Journal in Brave)
Full work available at URL: https://www.research.manchester.ac.uk/portal/en/publications/colour-level-set-regularization-for-the-electromagnetic-imaging-of-highly-discontinuous-parameters-in-3d(5601e28e-3a6e-4c71-a74e-20e14dd5d770).html
inverse problemselectrical conductivitytopological perturbationscolour level setsshape-based reconstruction
Ill-posedness and regularization problems in numerical linear algebra (65F22) Inverse problems for PDEs (35R30) Image processing (compression, reconstruction, etc.) in information and communication theory (94A08) Inverse problems (including inverse scattering) in optics and electromagnetic theory (78A46) Inverse problems in optimal control (49N45)
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Cites Work
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- Crack reconstruction using a level-set strategy
- Iterative regularization methods for nonlinear ill-posed problems
- Reservoir characterization using stochastic initializations and the level set method
- A linearized inverse boundary value problem for Maxwell's equations
- An inverse boundary value problem in electrodynamics
- Fast simulation of 3D electromagnetic problems using potentials.
- A multiphase level set framework for image segmentation using the Mumford and Shah model
- Level set methods and dynamic implicit surfaces
- Fast Finite Volume Simulation of 3D Electromagnetic Problems with Highly Discontinuous Coefficients
- The Mathematics of Computerized Tomography
- Mathematical Methods in Image Reconstruction
- A level set method for inverse problems
- Landweber iteration of Kaczmarz type with general non-smooth convex penalty functionals
- The domain derivative of time-harmonic electromagnetic waves at interfaces
- Sparsity and level set regularization for diffuse optical tomography using a transport model in 2D
- Parametric Level Set Methods for Inverse Problems
- A level-set approach for inverse problems involving obstacles Fadil SANTOSA
- On Landweber–Kaczmarz methods for regularizing systems of ill-posed equations in Banach spaces
- History matching of petroleum reservoirs using a level set technique
- Structural level set inversion for microwave breast screening
- Level set reconstruction of conductivity and permittivity from boundary electrical measurements using experimental data
- Inverse Boundary Value Problem for Maxwell Equations with Local Data
- Level set methods for inverse scattering—some recent developments
- Reconstruction of a two-dimensional binary obstacle by controlled evolution of a level-set
- A shape reconstruction method for electromagnetic tomography using adjoint fields and level sets
- Sensitivity analysis of a nonlinear inversion method for 3D electromagnetic imaging in anisotropic media
- Quasi-Newton methods for large-scale electromagnetic inverse problems
- History matching problem in reservoir engineering using the propagation–backpropagation method
- A nonlinear inversion method for 3D electromagnetic imaging using adjoint fields
- Shape and distributed parameter estimation for history matching using a modified Ensemble Kalman filter and level sets
- Sparsity and level set regularization for near-field electromagnetic imaging in 3D
- A Kaczmarz Version of the REGINN-Landweber Iteration for Ill-Posed Problems in Banach Spaces
- Shape sensitivities for an inverse problem in magnetic induction tomography based on the eddy current model
- Imaging low sensitivity regions in petroleum reservoirs using topological perturbations and level sets
- Level set methods for inverse scattering
- Inverse acoustic and electromagnetic scattering theory
- Uniqueness for an inverse problem in electromagnetism with partial data
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