Primal-dual active set strategy for large scale optimization of cardiac defibrillation
DOI10.1016/j.amc.2016.07.035zbMath1410.49030OpenAlexW2483064287MaRDI QIDQ1732832
Nagaiah Chamakuri, Karl Kunisch
Publication date: 25 March 2019
Published in: Applied Mathematics and Computation (Search for Journal in Brave)
Full work available at URL: http://unipub.uni-graz.at/doi/10.1016/j.amc.2016.07.035
finite element methodbidomain modelcontrol constraintscardiac arrhythmiaprimal-dual active set strategylarge scale PDE constraint optimization
Medical applications (general) (92C50) Physiology (general) (92C30) Numerical methods of relaxation type (49M20) Computational methods for problems pertaining to biology (92-08)
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- A two-current model for the dynamics of cardiac membrane
- Optimal control approach to termination of re-entry waves in cardiac electrophysiology
- Higher order optimization and adaptive numerical solution for optimal control of monodomain equations in cardiac electrophysiology
- Computer simulations of cardiac defibrillation: a look inside the heart
- A generic grid interface for parallel and adaptive scientific computing. II: Implementation and tests in DUNE
- Adaptive multilevel solution of nonlinear parabolic PDE systems. Theory, algorithm, and applications
- A parallel, load-balanced MHD code on locally-adapted, unstructured grids in 3d
- On boundary stimulation and optimal boundary control of the bidomain equations
- A numerical method for the solution of the bidomain equations in cardiac tissue
- Adaptivity in Space and Time for Reaction-Diffusion Systems in Electrocardiology
- Lagrange Multiplier Approach to Variational Problems and Applications
- Generation of histo-anatomically representative models of the individual heart: tools and application
- Semi-Implicit Time-Discretization Schemes for the Bidomain Model
- A Fast and High Quality Multilevel Scheme for Partitioning Irregular Graphs
- Primal-Dual Strategy for Constrained Optimal Control Problems
- Semismooth Newton Methods for Operator Equations in Function Spaces
- The Primal-Dual Active Set Strategy as a Semismooth Newton Method
- The Primal-Dual Active Set Method for Nonlinear Optimal Control Problems with Bilateral Constraints
- On the Finite Element Solution of the Pure Neumann Problem
- A Parallel Multilevel Technique for Solving the Bidomain Equation on a Human Heart with Purkinje Fibers and a Torso Model
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