1 |
김상현, 손광익, 한건연 (1996). 'Tile drain의 영향과 GIS를 연계한 농경지 유역에 대학 수문학적 모의', 한국수자원학회지, 한국수자원학회, Vol. 29(6), pp. 203-215
과학기술학회마을
|
2 |
Garbrecht, J., and Martz, L.W. (1993). 'Network and subwatershed parameters extracted from digital elevation models: the Bill's Creek experience.' Water Resources Research, Vol. 29, pp. 909-916
DOI
|
3 |
Abbott, I.B., Bathurst, J.C., Cunge, J.A., O'Connell, P.E., and Rasmussen, J. (1986). 'An introduction to the European Hydrological System - Systeme Hydrologique Europeen, (SHE), 1: History and philosophy of a physically-based distributed modelling system.' Journal of Hydrology, Vol. 87, pp. 45-59
DOI
ScienceOn
|
4 |
Kim, S.J., Chae, H.S., Yoo, C.S., Shin, S.C. (2003). 'Stream discharge Prediction via a grid-based soil water routing with paddy fields.' Journal American Water Resources Association, Vol. 39(5), pp. 1143-1155
DOI
ScienceOn
|
5 |
Kite, G.W. (1998). 'Land surface parameterizations of GCMs and macroscale hydrological models.' Journal American Water Resources Association, Vol. 34(6), pp. 1247-1254
DOI
ScienceOn
|
6 |
Kite, G.W. (2002). Manual for the SLURP hydrological model Version 12.2. Hydrologic-Solutions
|
7 |
Lacroix, M.P., Martz, L.W., Kite, G.W., and Garbrecht, J. (2002). 'Using digital terrain analysis modeling techniques for the parametrization of hydrologic model,' Journal of Hydrology, Vol. 217, pp. 127-136
DOI
ScienceOn
|
8 |
Martz, L.W., and Garbrecht, J. (1992). 'Numerical definition of drainage network and subcatch elevation models.' Computers & Geosciences, Vol. 18, pp. 747-761
DOI
ScienceOn
|
9 |
Institute of Hydrology. (1995). Assessment of global water resources, preliminary report, ODA Report 95(2), Report to the Overseas Development Administration
|
10 |
Rango, A., and Martinec, J. (1995). 'Revisiting the degree-day methods for snowmelt condition.' Wat.Res.Bull., Vol. 31(4), pp. 657-669
DOI
|
11 |
Krysanova, V., and Becker, A. (1996). Integrated Modelling of hydrology and water quality in mesoscale watersheds. Proc. Third int. Conf. on Integrating GIS and Environmental Modeling, Santa Fe, New. Mexico, pp. 21-25
|
12 |
Kouwen, N., Seglenieks, F., and Soulis, E.D. (1995). The use of distributed rainfall data and distributed hydrologic models for the estimation of peak flows for the Columbia River Basin. Progress Report 2, Waterloo Research Institute, Waterloo
|
13 |
Sandra, L. and Woo, M.K. (2003). 'Application of hydrological models with increasing complexity to subarctic catchments.' Journal of Hydrology, Vol. 270, pp145-157
DOI
ScienceOn
|
14 |
Lacroix, M.P., Martz, L.W., Kite, G.W., and Gabrecht, J. (2002). 'Using digital terrain analysis modeling techniques for the parameterization of a hydrologic model'. Environmental Modelling & Software, Vol. 17, pp. 127-136
DOI
ScienceOn
|
15 |
Nash, J.E., and Sutcliffe, J.V. (1970). 'River flow forecasting through conceptual models; Part 1 - A discussion of principles.' Journal of Hydrology, Vol. 10(3), pp. 282-290
DOI
ScienceOn
|
16 |
O'Callaghan, E.M., and Mark. (1984). 'The extraction of drainage networks from digital elevation data'. Computer Vision Graphics and Image Processing, Vol. 28, pp. 323-344
DOI
|
17 |
권순국, 고덕구 (1987). '산지유역에 대한 USDHAL-74 유역수문모형의 장기유출 해석 적용', 한국농공학회지, 한국농공학회, Vol. 29(2), pp. 53-63
과학기술학회마을
|
18 |
김성태 (2003). SLURP를 이용한 하천 유출량 모의. 석사학위논문, 인하대학교
|
19 |
고덕구 (1989). 소유역 장기유출 예측을 위한 모의발생 수문모형의 개발. 박사학위논문, 서울대학교
|
20 |
국립방재연구소 (2003). 위성자료를 이용한 가뭄예상지도의 개발. 행정자치부, pp. 28-36
|
21 |
Garbrecht, J., and Campbell, J. (1997). TOPAZ version 1.20: An automated digital landscape analysis tool for topographic evaluation, drainage identification, watershed segmentation and subcatchment parameterization. In: TOPAZ User Manual. Rep.# GRL 97-4. Grazinglands Research Laboratory, USDA, Agricultural research Service, El Reno, Oklahoma
|
22 |
Duan, Q., Sorooshian, S.S., and Gupta, V.K. (1994). 'Optimal use of the SCE-UA global optimization method for calibrating watershed models.' Journal of Hydrology, Vol. 158, pp. 265-284
DOI
ScienceOn
|