References
- 김동술, 김윤신, 김신도, 신응배, 김성천, 유정석 (1993) 서울 시 지하철역내의 라돈 농도분포 및 저감대책, 한국대기보전학회지, 9(4), 271-277
- 김영식 (2005) 건물 층별에 따른 라돈농도에 관한 연구, 한국환경보건학회지, 31(1), 94-98
- 서울시 지하철공사(1998) 서울시 지하철 환경개선 방안 연 구
- 윤훈주(1997) GIS를 이용한 강하분진 중 금속원소의 공간 분포 분석, 한국대기보전학회지, 13(6), 463-474
- 차동원(2002) 압력차에 의한 지하실의 실내 라돈농도 변화 와 토양가스분석 Test-Cell Study (II), 환경관리학회지, 8(1), 59-65
- 최종근(2004) 공간정보 모델링-크리깅과 최적화 기법, 구미 서관
- 한국자원연구소 (1999) 서울-남천점 지질도폭 설명서, 과학 기술부, KR-99(S)-1
- 황인조, 한근혁, 최형욱, 김동술, 김신도(2001) 서울시 지하철 역사내 라돈의 농도분포, 환경연구논문집, 경희대 학교, 10, 1-10
- Akula, A. (1998) On the use of kriging in the spatial analysis of acid precipitation data, Atmospheric Environment, 22(9), 1963-1975
- Appleton, J.D. (2005) Radon in air and water. In Essentials of Medical Geology, Impacts of the Natural Environment on Public Health (Selinus, O., B. Alloway, J. Centero, R. Finkelman, R. Fuge, U. Lindh, and P. Smedley Eds), Elsevier Academic Press, pp. 227- 262
- Bailey, T.C. (1994) A Review of Statistical Spatial Snalysis in Geographical Information System, London: Taylor and Francis
- Burkart, W., M. Sohrabi, and A. Bayer (2002) High Levels of Natural Radiation and Radon Areas: Radiation Dose and Health Effects. Elsevier Science B.V
- Crameri, R. and W. Burkart (1989) Radon problem, Radiat. Phys. Chem., 34(2), 251-259
- Crawford, D.J. (1992) Cancer risk from radon, J. AWMA, 77-81
- EPA (1992) A Citizen's Guide to Radon: EPA, ANR-464, 4022-K-92-001
- ESRI (2006) ArcGIS 8 Using ArcGis Geostatistical Analyst
- Falke, S.R. and R.B. Husar (1996) Uncertainty in the Spatial Interpolation of Ozone Monitoring Data, U.S.A., CAPITA
- Fotheringham, A.S., C. Brunsdon, and M. Charlton (2000) Quantitative Geography: Perspective on Spatial Data Analysis, London: Sage Publications
- Ioannidex, K., C. Papachristodoulou, K. Stamoulis, D. Karamanis, S. Pavlides, A. Chatzipetros, and E. Karakala (2003) Soil gas radon: a tool for exploring active fault zones, Applied Radiation and Isotopes, 59, 205-213 https://doi.org/10.1016/S0969-8043(03)00164-7
- Kim, D.S. and Y.S. Kim (1993) Distribution of airborne radon concentrations in Seoul metropolitan subway station, Health Physics, 65(1), 12-16 https://doi.org/10.1097/00004032-199307000-00002
- Matheron, G. (1971) The Theory of Regionalized Variables and its Applications, Ecole des mines de Paris; Fontainebleau, France
- Miller, R.G. (1974) The jackknife-A review, Biometrica, 61, 1-71
- Ripley, B.D. (1981) Spatial Statistics, John Wiley & Sons
- Salih, I., H.B.L. Pettersson, A. Sivertun, and E. Lund (2002) Spatial correlation between radon (222-Rn) in ground water and bedrock uranium (238U), GIS geostatistical analyses, J. of Spatial Hydrology, 2(2), 1- 10
- Sesana, L., E. Carproli, and G.M. Marcazzan (2003) Long period study of outdoor radon concentration in Milan and correlation between its temporal variations and dispersion properties of atmosphere, Journal of Environmental Radioactivity, 65, 147-160 https://doi.org/10.1016/S0265-931X(02)00093-0
- Singh, S., R. Maehra, and K. Singh (2005) Seasonal variation of indoor radon in dwellings of Malwa region, Punkab, Atmospheric Environment, 39, 7761-7767 https://doi.org/10.1016/j.atmosenv.2005.08.030
- World Health Organization (2006) http://www.who.int/en/
Cited by
- Characterizing Par ticle Matter on the Main Section of the Seoul Subway Line-2 and Developing Fine Particle Pollution Map vol.32, pp.2, 2016, https://doi.org/10.5572/KOSAE.2016.32.2.216
- Indoor Radon Risk Assessment by Applying Measurement Concentrations and Exposure Times for Military Facilities and Underground Shopping Malls near Subway stations vol.42, pp.5, 2016, https://doi.org/10.5668/JEHS.2016.42.5.345