References
- 건설교통부. 2000. 한국가능최대강수량추정. 과천: 건설교통부. (Ministry of Construction and Transportation. 2000. Estimation of Probable Maximum Precipitation in Korea. Gwacheon.)
- 건설교통부. 2004. 전국 PMP도 재산정 보고서. 과천: 건설교통부. (Ministry of Construction and Transportation. 2004. Renewable Report of PMP Map in Korea. Gwacheon.)
- 건설부. 1988. 한국가능최대강수량추정. 과천: 건설부. (Ministry of Construction. 1988. Estimation of Probable Maximum Precipitation in Korea. Gwacheon.)
- 김남원, 원유승. 2004. 호우이동을 고려한 DAD 분석방법. 한국수자원학회 논문집. 37(5):437-448. (Kim NW, Won YS. 2004. DAD Analysis on Storm Movement. Journal of Korea Water Resources Association. 37(5):437-448.)
- 김병식, 배영혜, 박정술, 김경탁. 2008. 레이더 강우와 분포형 수문모형을 이용한 미계측 유역의 홍수 유출모의; 임진강 유역. 한국지리정보학회지. 11(3):52-67 (Kim BS, Bae YH, Park JS, Kim, KT. 2008. Flood runoff simulation using radar rainfall and distributed hydrologic model in Un-Gauged basin ; Imjin River basin. Journal of the Korean Association of Geographic Information Studies. 11(3):52-67.)
- 김병식. 2009. 미래의 기후변화에 따른 홍수대응 방안. 대한토목학회지 59(9):27-41 (Kim BS. 2009. Adaptation Strategies for Extreme Flood to Cope with Future Climate Change. Korean Society of Civil Engineers. 57(9):27-41.)
- 김연수, 송미연, 이기하, 정관수. 2014. DAD 분석을 위한 자동 강우장 탐색기법의 개발 및 적용. 47(4):357-370. (Kim YS, Song MY, Lee GH, Jung KS. 2014. Development and application of automatic rainfall field tracking methods for depth-area-duration analysis. Journal of Korea Water Resources Association. 47(4):357-370.)
- 김은희, 김맹기, 이우섭. 2005. 최근 30년간 한반도 일강수강도의 지역적 특성. 한국지구과학회지. 26(5):404-416. (Kim EH, Kim MG, Lee WS. 2005. The regional characteristics of daily precipitation intensity in Korea for recent 30 years. Journal of Korean Earth Science Society. 26(5):404-416.)
- 박상우, 김백조, 장석환 2002. 1999년 임진강 유역의 집중호우에 대한 DAD 무형의 연구. 한국환경과학회지. 11(7):621-626. (Park SW, Kim BJ, Jang SH. 2002. A Study on Depth-Area-Duration Models of Heavy Rainfall, 1999 in the Im-Jin River Basin. Journal of the Environmental Sciences. 11(7):621-626.)
- 박진혁, 강부식, 이근상. 2008. 레이더강우를 이용한 GIS기반의 분포형모형 적용성 분석. 한국지형공간정보학회지 16(1):23-32. (Park JH, Kang BS, Lee GS. 2008. Application analysis of GIS based distributed model using radar rainfall. Journal of the Korean Society for Geospatial Information System. 16(1):23-32.)
- 박혜선. 2014. 분포형 강우-유출모델링을 위한 지상강우와 이중편파 레이더강우의 적용성 비교연구. 석사학위논문. 건국대학교. (Park HS. 2014. Comparison of Ground Measured and Dual-Polarization Radar Rain for Distributed Rainfall-Runoff Modeling[Thesis]. Konkuk University.)
- 송미연. 2014. GIS기반의 호우 탐색기법을 이용한 DAD 분석. 석사학위논문. 충남대학교. (Song MY. 2014. Analysis Using GIS-based Rain Search Method[Thesis]. Chungnam National University.)
- 안소라, 박혜선, 한명선, 김성준. 2014. 충주댐 유역 홍수추적을 위한 소백산 레이더 강우자료의 적용성 검토. 한국지리정보학회지. 17(1):129-143. (Ahn SR, Park HS, Han MS, Kim, SJ. 2014. Applicability of Sobaek radar rain for flood routing of Chungju dam watershed. Journal of the Korean Association of Geographic Information Studies. 17(1):129-143) https://doi.org/10.11108/kagis.2014.17.1.129
- 윤성심, 이병주, 최영진. 2015. 고밀도 지상강우관측망을 활용한 서울지역 정량적 실황강우장 산정. 한국기상학회 논문집. 25(2): 283-294. (Yoon SS, Lee BJ, Choi YJ. 2015. Quantitative Precipitation Estimation using High Density Rain Gauge Network in Seoul Area. Journal of Atmosphere. Korean Meteorological Society. 25(2):283-294.)
- 이기하, 이건혁, 정관수, 장창래. 2012. 강우의 공간분포에 따른 침식 및 퇴적의 변동성 분석. 한국수자원학회 논문집. 45(7):657-674. (Lee GH, Lee KH, Jung KS, Jang CL. 2012. Analysis on the Effect of Spatial Distribution of Rainfall on Soil Erosion and Deposition. Journal of Korea Water Resources Association. 45(7):657-674.)
- 최종근. 2007. 지구통계학. 시그마프레스. (Choi JG. 2007. Geostatistics. Sigmapress.)
- Applied Weather Associates. 2013. Probable Maximum Precipitation Study for Arizona. AWA, Colorado. USA.
- Bell FC. 1976. The Areal Reduction Factor in Rainfall Frequency Estimation. Institute of hydrology. Report No. 35.
- Durrans SR, Julian LT, Yekta M. 2002. Estimation of depth area relationships using radar data. Journal of Hydrologic Engineering. 7(5):356-367 https://doi.org/10.1061/(ASCE)1084-0699(2002)7:5(356)
- Guo James CY. 2011. Storm Centering Approach for Flood Predictions from Large Watersheds. second review. ASCE Journal of Hydrologic Engineering. May 2011.
- Intergovernmental Panel On Climate Change. 2014. Climate Change 2014 Synthesis Report. Intergovernmental Panel On Climate Change, Geneva, Switzerland.
- Shin YA. 2013. Grid-Based Spatial and Temporal Approaches to Depth-Area-Duration Rainfall Analysis[Thesis]. Kyoto University. Kyoto, Japan.
- Takara K,Hashino T. 2000. DAD analysis using radar raingages and PMF estimation in the Naka river. DPRI 43, B-2: 167-176.
- Takara K, Hashino T, Nakao T. 2001. Application of radar raingage and nonlinear optimization to DAD analysis. Japan Society of Civil Engineers. 691: 1-11.
- Takara K, Imamoto H, Hayashu T, Nakakita E, Ichikawa Y, Hashino T, Nakamura Y. 1999. Storm and flood disaster in the Nakagawa basin in 1998. DPRI 42, B-2: 235-253.
- Tarun DG. 2005. Transformation of Point Rainfall to Areal Rainfall by Estimating Areal Reduction Factors using Radar Data For Texas[Thesis]. Texas A&M University.
- WMO. 1969. Manual for Depth-Area-Duration Analysis of Storm Precitation. Technical Paper 129, Geneva.