Codes in this repositoty is related to paper entitled "A Hybrid FE-EFG Method for 2D MIT Forward Problem Computation" presented at the International Conference of Bioelectromagnetism, Electrical Bioimpedance, and Electrical Impedance Tomography June 28 – July 1, 2022 / Kyung Hee University, Seoul, Korea.

If you find it useful, please cite our related work as: Yazdanian, H., & Hadinia, M. (2022). A Hybrid FE-EFG Method for 2D MIT Forward Problem Computation. International Journal of Bioelectromagnetism, 24.

Abstract of the paper: Magnetic induction tomography (MIT) is a modality for imaging the electrical conductivity of biological tissues. This paper presents a hybrid finite element-element free Galerkin (FE-EFG) method for solving 2D MIT forward problem. The numerical implementation of the hybrid method is validated by an analytical problem. A 16-coil 2D MIT system is modeled and the hybrid method is employed to solve the forward problem using a head phantom. The results hold promise for alternatively employing of the hybrid FE-EFG method in situations with meshing task problem.