Inverse Problems in Electrical Tomography: From Theory to Practical Applications

Chairs: C. Sebu

Speakers:

Susanne Schmitt, susanne.schmitt@kit.edu
Karlsruhe Institute of Technology (KIT), Department of Mathematics, Germany
Determination of the conductivity inside previously located inclusions in EIT

Stefanie Reusswig, reusswig@math.uni-mainz.de
University Mainz, Germany
Numerical reconstructions from backscatter data in impedance tomography

K. Schilcher, karl.schilcher@uni-mainz.de
Institute of Physics, University of Mainz, Germany
First results from an electrical impedance tomograh specially adapted for future use in mammography

Cristiana Sebu, csebu@brookes.ac.uk
Oxford Brookes University, UK
Conductivity imaging using interior potential measurements

Andrea Borsic, Andrea.Borsic@Dartmouth.edu
Thayer School of Engineering, Dartmouth College, USA
Breast imaging with electrical impedance tomography

Michael Pidcock, mkpidcock@brookes.ac.uk
Department of Mathematics Sciences, Oxford Brookes University, UK
Applications of electrode models for electrical impedance tomography

T. Khan, khan@clemson.edu
Department of Mathematical Sciences Clemson University  Clemson, South Carolina, USA 
Abstract function spaces and optimal source in optical tomography for maximizing distinguishability

T. Wondrak, t.wondrak@fzd.de
Forschungszentrum Dresden Rossendorf, Germany
Contactless inductive flow tomography: principles and applications