核心概念
Developing a boundary integral equation method for the complete electrode model in electrical impedance tomography.
摘要
The content introduces a boundary integral equation method for solving the electrostatic potential in electrical impedance tomography using the complete electrode model. It discusses the formulation of the method, numerical implementation, adaptive grid refinement, and experimental results. The study focuses on solving the inverse conductivity problem in EIT.
- Introduction to the problem setting and EIT as an imaging tool.
- Derivation of boundary integral equations for the complete electrode model.
- Numerical implementation of the boundary integral equation method.
- Experimental setup and results for the inverse solver.
統計資料
The measured value of the conductivity was 300 µS/cm.
The amplitudes of the injected currents were 2 mA.
Frequencies of the injected currents were 1 kHz.
引述
"We develop a boundary integral equation-based numerical method to solve for the electrostatic potential in two dimensions." - Teemu Tyni