1 R.L.Parker, "The inverse problem of resistivity sounding" 142 : 2143-2148, 1984
2 J. K. Johnson, "Remote Sensing in Archaeology: An Explicitly North American Perspective" University of Alabama Press 14-15, 2006
3 Ts.Munkh-Erdene, "Projective electrical impedance reconstruction with two measurements" 2013
4 D.C. Giancoli, "Physics: Principles with Applications" Prentice Hall 1995
5 A.P.Calderon, "On an inverse boundary value problem" 65-73, 1980
6 A.Ramirez, "Monitoring an underground steam injection process using electrical resistance tomography" 29 : 73-77, 1993
7 "Minamata disease from Wikipedia, the free encyclopedia"
8 E.Lee, "Mathematical framework for a new microscopic electrical impedance tomography (micro-EIT) system" 27 : 055008-, 2011
9 J.K.Seo, "Frequency-difference electrical impedance tomography (fdEIT): algorithm development and feasibility study" 29 : 929-944, 2008
10 S.C.Jun, "Frequency-difference EIT (fdEIT) using weighted difference and equivalent homogeneous admittivity validation by simulation and tank experiment" 30 : 1087-1099, 2009
1 R.L.Parker, "The inverse problem of resistivity sounding" 142 : 2143-2148, 1984
2 J. K. Johnson, "Remote Sensing in Archaeology: An Explicitly North American Perspective" University of Alabama Press 14-15, 2006
3 Ts.Munkh-Erdene, "Projective electrical impedance reconstruction with two measurements" 2013
4 D.C. Giancoli, "Physics: Principles with Applications" Prentice Hall 1995
5 A.P.Calderon, "On an inverse boundary value problem" 65-73, 1980
6 A.Ramirez, "Monitoring an underground steam injection process using electrical resistance tomography" 29 : 73-77, 1993
7 "Minamata disease from Wikipedia, the free encyclopedia"
8 E.Lee, "Mathematical framework for a new microscopic electrical impedance tomography (micro-EIT) system" 27 : 055008-, 2011
9 J.K.Seo, "Frequency-difference electrical impedance tomography (fdEIT): algorithm development and feasibility study" 29 : 929-944, 2008
10 S.C.Jun, "Frequency-difference EIT (fdEIT) using weighted difference and equivalent homogeneous admittivity validation by simulation and tank experiment" 30 : 1087-1099, 2009
11 T.I.Oh, "Feasibility of breast cancer lesion detection using multifrequency trans-admittance s-canner (TAS) with 10Hz to 500kHz bandwidth" 28 : S71-S84, 2007
12 N.Polydorides, "Electrical Impedance Tomography for geophysical applications" 2010
13 G.D’Antona, "Electrical Impedance Tomography for Underground Pollutant Detection and Polluted Lands Reclaiming Monitoring" 1035-1038, 2002
14 Q. Liu, "Development of a prototype micro-EIT system using three sets of 15 8 array electrodes" 224 : 012161-, 2010
15 A.Ramirez, "Detection of leaks in underground storage tanks using electrical resistance methods" 1 : 189-203, 1996
16 E.Lee, "Breast EIT using a new projected image reconstruction method with multi-frequency measurements" 33 : 751-765, 2012
17 J.E. Chambers, "Bedrock detection beneath river terrace deposits using three-dimensional electrical resistivity tomography" 2012
18 "Artisanal Gold Mining Mercury Pollution Estimated Population at Risk"
19 D.C. Barber, "Applied potential tomography" 17 : 723-733, 1984
20 H.Ammari, "An accurate formula for the reconstruction of conductivity Inhomogeneity" 30 : 679-705, 2003
21 A.Gabriele, "Active Monitoring Apparatus for Underground Pollutant Detection Based on Electrical Impedance Tomography" 577-579, 2002
22 F. Santosa, "A backprojection algorithm for electrical impedance imaging" 50 : 216-243, 1990