비록 2차 세계대전 이전에 자연전위가 관측되었다는 기록도 있기는 하지만, 한국에서 대전 이후 서서히 발전하던 전기탐사가 본격적으로 보급된 것은 1980년대 이후의 일이다. 다른 선진국과 달리 한국의 경우 전기비저항법을 환경문제보다 토목 건설 문제에 상대적으로 더 많이 적용하고 있다. 다른 모든 기술분야와 마찬가지로 반도체산업의 발전은 자료 수집과 잡음 감쇄처리에서 혁신을 가져왔으며, 지난 25년 동안 전기비저항 자료의 수집, 처리 및 해석에 있어서 두드러진 발전이 있었다. 평활화제약 모델에 의한 2차원 전기비저항 역산의 개발은 지난 40년 동안 물리탐사 자료해석에서 가장 현저한 변화 중 하나이며, 지금은 겉보기비저항 자료에 일반적으로 적용되고 있다. 전기비저항 분포를 가단면도가 아니라 단면도로 나타낼 수 있게 된 것은 자료해석에 혁신을 가져왔다. 일반적인 전자기 문제에서는 감도 계산을 위해 대단히 많은 전진 모델링을 필요로 하지만, 전기비저항법에서는 전류원과 수신점이 같은 위치를 차지하기 때문에 계산효율이 높아서 이전에는 처리하기 어려웠던 3차원 역산도 이제는 가능해졌다.

Although application of electrical methods in Korea began with observation of self potentials before World War II, the methods were developed slowly by the beginning of 1980's when a major burst of development activity took place. DC resistivity methods are applied in Korea more to geotechnical problems rather than to environmental ones unlike other developed countries. As with every other branch of technology, the evolving speed of the silicon chip and of streaming data to hard disk has revolutionized data collection and noise reduction processing. The last two decades saw major advances in data collection, processing, and interpretation of electrical data. Development of smooth-model two-dimensional (2D) resistivity inversion is one of the most visible changes to geophysical interpretation of the last 40 years and is now routinely applied to apparent resistivity data. The ability to represent resistivities in section rather than pseudosection view has revolutionized interpretation. Although calculation of sensitivities for general electromagnetic problems require numerous forward modelings, DC resistivity methods can enjoy computational efficiencies if sources and receivers occupy the same position, and previously intractable 3D inversion is now becoming available.

1 "전기비저항 토모그래피에서의 전극배열비교." 34 : 18-26, 1997a

2 "전기비저항 토모그래피에서의 공내수 영향." 34 : 531-538, 1997b

3 "전기비저항 토모그래피에 의한 지하구조의3차원 영상화." 5 : 236-249, 2002

4 "전기비저항 탐사(II)" 1 : 188-195, 1998b

5 "전기비저항 탐사(I)" 1 : 140-143, 1998a

6 "전기비저항 자료의 3차원 역산. 물리탐사" 2 : 191-201, 1999

7 "쌍극자 배열 비저항탐사자료의 2차원 자동역산. 대한광산학회지" 26 : 90-100, 1989b

8 "시추공간 전기비저항 탐사자료의 영상화." 32 : 87-96, 1995

9 "물리탐사 논문 동향 분석 및 데이터베이스 작성" 서울대학교 공학연구소. 2006

10 "Two-dimesional inversionfor dipole-dipole resistivity data. J. Korean Inst. MiningGeol." 21 : 107-113, 1988

11 "Two-dimensional joint inversion of magnetotelluricand dipole-dipole resistivity data. Geophysics" 54 : 254-262, 1989

12 "Two-dimensional DCresistivity inversion for dipole-dipole data. IEEETrans. Geosci. Remote Sensing" 22 : 21-28, 1984

13 "Threedimensionalmodeling and inversion of dc resistivitydata incorporating topography æ II. Inversion." 166 : 506-517, 2006

14 "Threedimensionalmodeling and inversion of dc resistivitydata incorporating topography æ I. Modeling." 166 : 495-505, 2006

15 "Three-dimensional induced polarizationand electromagnetic modeling. Geophysics" 40 : 309-324, 1975

16 "Three-dimensional imaging of subsurfacestructures using resistivity data." 49 : 483-497, 2001

17 "Three-DimensionalElectromagnetics." 709-, 1999

18 "The self-potential method for environmentaland engineering applications. In Ward" 1 : 127-145, 1990

19 "The inverse problem of electromagneticinduction existence and construction of solutionsbased upon incomplete data. J. Geophys. Res." 4421-4425, 1980

20 "The application of linear filter theoryto the direct interpretation of geoelectrical resistivitysounding measurements. Geophys. Prosp." 19 : 192-217, 1971

21 "Some refinements on thefinite-difference method for 3-d dc resistivity modeling." 61 : 1301-1307, 1996

22 "Solutions to Ill-Posed Problems. John Wiley and Sons" Inc. 1977

23 "Smooth 2-D inversion for magnetotelluricdata based on statistical criterion ABIC. J.Geomag. Geoelectr." 45 : 841-858, 1993

24 "Resolution of resistivity tomographyinferred from numerical simulation. Geophys. Prosp." 40 : 453-463, 1992

25 "Resistivity modellingfor arbitrarily shaped two-dimensional structures.Geophys. Prosp." 27 : 106-136, 1979a

26 "Resistivity modelingfor arbitrarily shaped three-dimensional bodies. Geophysics" 44 : 753-780, 1979b

27 "Resistivity and induced polarizationmethods. In Ward" 1. soc. expl. : 147-189, 1990b

28 "Reciprocity 원리를 이용한 2차원 비저항 탐사자료의 효율적 역산. 대한광산학회지" 26 : 18-27, 1989a

29 "Rapid least-squaresinversion of apparent resistivity pseudosections by aquasi-Newton method." 44 : 131-152, 1996

30 "Occam’sinversion to generate smooth" 55 : 1613-1624, 1990

31 "Near-surface geophysics: 75 years of progress." 24 (24): S82-S85, 2005

32 "Mapping ofinduced polarization using natural fields." 66 : 137-147, 2001

33 "Inversion of pole-poledata for 3-D resistivity structure beneath arrays ofelectrodes. Geophysics" 56 : 951-960, 1991

34 "Impact factor, citations, and Geophysics." 70 : 3MA-17MA, 2005

35 "Geophysical Inverse Theory. PrincetonUniv. Press." 1994

36 "Finite element three-dimensional direct current modeling: accuracy and efficiency considerations" 145 : 679-688, 2001

37 "Engineering and environmentalgeophysics at the millennium." 66 : 31-35, 2001

38 "Electromagnetic and electrical modelingby the finite element method. Geophysics" 36 : 132-155, 1971

39 "Electrical methods. In: Handbook of Geophysical Exploration" 239-295, 1998

40 "Electrical and EM methods" 24 (24): S42-S45, 2005

41 "Electrical" and magnetotelluricmethods. Geophysics 45 : 1659-1666, 1980

42 "Effective multidimensional resistivity inversion using finite-element techniques." 151 : 710-728, 2002

43 "Cross-borehole resistivitytomography. Geophysics" 56 : 1228-1235, 1991

44 "Computationsof secondary potential for 3D DC resistivity modelingusing an incomplete Cholesky conjugate-gradientmethod." 51 : 567-577, 2003

45 "Automatic interpretation of resistivitysounding data over two-dimensional structure" 34 : 341-350, 1981

46 "Application of highresolutiongeoelectric imaging techniques to geotechnicalengineering in Korea" 191-196, 2004

47 "An investigation of finite element modeling forelectrical and electromagnetic data in three dimensions.Geophysics" 46 : 1009-1024, 1981

48 "An integral equation and its solution forsome two and three-dimensional problems in resistivityand induced polarization. Geophys. J. R. astr.Soc." 42 : 81-95, 1975

49 "Acheron’s rainbow: Free associations on 75 years of exploration geo-electromagnetics" 70 : 25ND-31ND, 2005

50 "A technique for improving the accuracyof finite element solutions for magnetotelluric data.Geophys. J. Roy. astr. Soc." 44 : 483-506, 1976

51 "A review ofleast-squares inversion and its application to geophysicalproblems. Geophys. Prosp." 32 : 159-186, 1984

52 "A refinement of resistivity modeling techniques.Geophysics" p. 54 : 766-774, 1989

53 "A practical algorithm for generating smooth modelsfrom electromagnetic sounding data. Geophysics" 289-300, 1987

54 "A method for modeling the resistivityand IP response of two-dimensional bodies.Geophysics" 41 : 997-1015, 1976

55 "A dual-grid nonlinear inversion technique with applications to the interpretation of dc resistivity data." 65 : 1733-1745, 2000

56 "A GCV basedmethod for nonlinear ill-posed problems." 4 : 41-63, 2000

57 "A 3-D finite-element algorithm for DCresistivity modeling using the shifted incompleteCholesky conjugate gradient method." 154 : 974-956, 2003

58 "3-D resistivity inversion using the finiteelement method. Geophysics" 59 : 1839-1848, 1994

59 "3-D inversion of electrical and electromagneticdata on PCs" 128-131, 1999

60 "2-D and 3-D resistivity imaging reconstructionusing crosshole data. Geophysics" 57 : 682-694, 1992