Global Lipschitz stability of multiple space dependent ionic parameters for the MEA/hiPSC-CM assays
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Publication:5058284
DOI10.1088/1361-6420/aca70dzbMath1504.35634OpenAlexW4310369039MaRDI QIDQ5058284
Hamza Ammar, Moncef Mahjoub, Néjib Zemzemi
Publication date: 20 December 2022
Published in: Inverse Problems (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1088/1361-6420/aca70d
inverse problemuniquenessparameter identificationreaction-diffusion equationsCarleman estimatestability result
Inverse problems for PDEs (35R30) Initial-boundary value problems for second-order parabolic systems (35K51)
Cites Work
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- Reaction-diffusion systems for the macroscopic bidomain model of the cardiac electric field
- Stability analysis of the POD reduced order method for solving the bidomain model in cardiac electrophysiology
- Minimal model for human ventricular action potentials in tissue
- Carleman estimates for coefficient inverse problems and numerical applications.
- Exact controllability for semilinear parabolic equations with Neumann boundary conditions
- Mathematical cardiac electrophysiology
- Logarithmic stability in determination of a coefficient in an acoustic equation by arbitrary boundary observation
- Stability results for the parameter identification inverse problem in cardiac electrophysiology
- Inverse problem for a parabolic system with two components by measurements of one component
- An Inverse problem for a nonlinear parabolic equation
- Inverse problems and Carleman estimates
- Lipschitz stability in inverse parabolic problems by the Carleman estimate
- Identification of a Temperature Dependent Heat Conductivity from Single Boundary Measurements
- Exact controllability of the Navier-Stokes and Boussinesq equations
- On the identification of multiple space dependent ionic parameters in cardiac electrophysiology modelling
- Controllability of parabolic equations
- Ionic parameters identification of an inverse problem of strongly coupled PDE’s system in cardiac electrophysiology using Carleman estimates
- Stability estimates for some parameters of a reaction-diffusion equation coupled with an ODE
- Computing the Electrical Activity in the Heart
- Analysis of the heart-torso conductivity parameters recovery inverse problem in cardiac electrophysiology ECG modelling
