Real-Time Implementation of Calderon's Method on Subject-Specific Domains

A real-time implementation of Calderon's method for the reconstruction of a 2-D conductivity from electrical impedance tomography data is presented, in which domain-specific modeling is taken into account. This is the first implementation of Calderon's method that accounts for correct modeling of non-symmetric domain boundaries in image reconstruction. The domain-specific Calderon's method is derived and reconstructions from experimental tank data are presented, quantifying the distortion when correct modeling is not included in the reconstruction algorithm. Reconstructions from human subject volunteers are presented, demonstrating the method's effectiveness for imaging changes due to ventilation and perfusion in the human thorax.