Hydrology laboratory research modeling system (HL-RMS) of the US national weather service

Journal of Hydrology

Volumn 291, Issue 3-4, 2004, Pages 297-318

  Koren, Victor ^a   Reed, Seann ^a   Smith, Michael ^a   Zhang, Ziya ^a   Seo, Dong Jun ^a  

^a NOAA EARTH SYSTEM RESEARCH LABORATORY   (United States)

Author keywords

Conceptual model; Distributed model; Kinematic routing; Parameter estimation; Radar; Water balance

Indexed keywords

CATCHMENTS; COMPUTER SIMULATION; ESTIMATION; KINEMATICS; MATHEMATICAL MODELS; RAIN; WATER;

CHANNEL ROUTING; HEADWATER BASINS; SPATIAL RAINFALL;

HYDROLOGY;

HYDROLOGICAL MODELING; PARAMETERIZATION; RAINFALL; RUNOFF; SPATIAL VARIATION;

EID: 2142847337     PISSN: 00221694     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jhydrol.2003.12.039     Document Type: Conference Paper

References (64)

1. Abbott M., Bathrust J., Cunge J., O'Connell P., Rasmussen J. An introduction to the European Hydrological System - Systeme Hydrologique European (SHE), 1, History and philosophy of a physically-based, distributed modeling system. Journal of Hydrology. 87:1986;45-59
2. Bell V.A., Moore R.J. A grid-based distributed flood forecasting model for use with weather radar data. Part 2. Case studies. Hydrology and Earth System Sciences. 2:(3):1998;283-298
3. Beven K. Changing ideas in hydrology: the case of physically-based models. Journal of Hydrology. 105:1989;157-172
4. Beven K. Linking parameters across scales: subgrid parameterizations and scale dependent hydrological models. Kalma J.D., Sivapalan M. Scale Issues in Hydrological Modeling. 1995;263-282 Wiley, New York
5. Boyle D.P., Gupta H.V., Sorooshian S. Toward improved calibration of hydrologic models: combining the strengths of manual and automatic methods. Water Resources Research. 36:(12):2000;3663-3674
6. Boyle D.P., Gupta H.V., Sorooshian S., Koren V., Zhang Z., Smith M. Toward improved streamflow forecasts: value of semidistributed modeling. Water Resources Research. 37:(11):2001;2749-2759
7. Burnash R.J.C. The NWS river forecast system - catchment modeling. Singh V.P. Computer Models of Watershed Hydrology. 1995;311-366 Water Resources Publications, Littleton, CO
8. Carpenter T.M., Georgakakos K.P., Sperfslage J.A. On the parametric and NEXRAD-radar sensitivities of a distributed hydrologic model suitable for operational use. Journal of Hydrology. 253:2001;169-193
9. Chow V.T., Maidment D.R., Mays L.W. Applied Hydrology. 1988;McGraw-Hill, New York
10. Dingman S.L. Physical Hydrology. 1993;Prentice Hall, Englewood Cliffs, NJ
11. DMIP - Distributed Model Intercomparison Project, 2002, http://www.nws.noaa.gov/oh/hrl/dmip/index.html.
12. Duan Q., Schaake J., Koren V. A priori estimation of land surface model parameters. Lakshmi V., Albertson J., Schaake J. Land Surface Hydrology, Meteorology, and Climate: Observation and Modeling. Water Science and Application. vol. 3:2001;77-94 AGU, Washington, DC
13. Finnerty B.D., Smith M.B., D J., Seo D.-J., Koren V.I., Moglen G. Sensitivity of the Sacramento soil moisture accounting mode to space-time scale precipitation inputs from NEXRAD. Journal of Hydrology. 203:(1-4):1997;21-38
14. Fread D.L. Flow routing. Maidment D.R. Handbook of Hydrology. 1993;10.1-10.36 McGraw-Hill, New York
15. Garrote L., Bras R.L. A distributed model for real-time flood forecasting using digital elevation models. Journal of Hydrology. 167:1995;279-306
16. Georgakakos K.P. Hydrometeorological models for real time rainfall and flow forecasting. Singh V.P., Frevert D.K. Mathematical Models of Small Watershed Hydrology and Applications. 2002;593-655 Water Resources Publications, LLC
17. Goodrich D.C., Woolhiser D.A., Keefer T.O. Kinematic routing using finite elements on a triangular irregular network. Water Resources Research. 27:(6):1991;995-1003
18. Gorbunov Y.V. Raschet zapasov vody v rechnoy seti na osnove morfologicheskich zakonov (Calculation of a stream network water storage based on morphological laws). Meteorologiya i Hydrologiya. 2:1971;57-67. in Russian
19. Grayson R.B., Moore I.D., McMahon T.A. Physically based hydrologic modeling 1. A terrain-based model for investigative purposes. Water Resources Research. 28:(10):1992;2639-2658
20. Hogue T.S., Sorooshian S., Gupta H., Holz A., Braatz D. A multistep automatic calibration scheme for river forecasting models. Journal of Hydrometeorology. 1:2000;524-542
21. Horton R.E. Erosional development of streams and their drainage basins; hydrological approach to quantitative morphology. Bulletin of the Geological Society of America. 56:1945;275-370
22. Johnson D., Smith M., Koren V., Finnerty B. Comparing mean areal precipitation estimates from NEXRAD and rain gauge networks. Journal of Hydrologic Engineering. 4:(2):1999;117-124
23. Julien P.Y., Saghafian B., Ogden F.L. Raster-based hydrologic modeling of spatially-varied surface runoff. Water Resources Bulletin. 31:(3):1995;523-536
24. Koren V., Barrett C.B. Satellite based, Distributed monitoring, forecast, and simulation (MFS) system for the Nile River. Kite G.W., Pietroniro A., Pultz T.J. Application of Remote Sensing in Hydrology. 1995;187-200 NHRI, Saskatoon, Canada
25. Koren V.I., Finnerty B.D., Schaake J.C., Smith M.B., Seo D.-J., Duan Q.-Y. Scale dependencies of hydrologic models to spatial variability of precipitation. Journal of Hydrology. 217:1999;285-302
26. Koren V.I., Smith M., Wang D., Zhang Z. Use of soil property data in the derivation of conceptual rainfall-runoff model parameters. Proceedings of the 15th Conference on Hydrology. 2000;AMS, Long Beach, CA. pp. 103-106
27. Koren V., Smith M., Duan Q. Use of a priori parameter estimates in the derivation of spatially consistent parameter sets of rainfall-runoff models. Duan Q., Sorooshian S., Gupta H., Rosseau H., Turcotte R. Calibration of Watershed Models, Water Science and Applications 6. 2003;239-254 AGU
28. Kouwen N., Garland G. Resolution considerations in using radar rainfall data for flood forecasting. Canadian Journal of Civil Engineering. 16:1989;279-289
29. Kull D.W., Feldman A.D. Evolution of Clark's unit graph method to spatially distributed runoff. Journal of Hydrologic Engineering. 3:(1):1998;9-19
30. Loague K. R-5 Revisited 2. Reevaluation of a quasi-physically based rainfall-runoff model with supplemental information. Water Resources Research. 26:(5):1990;973-987
31. Loague K.M., Freeze R.A. A comparison of rainfall-runoff modeling techniques on small upland catchments. Water Resources Research. 21:(2):1985;229-248
32. Michaud J., Sorooshian S. Comparison of simple versus complex distributed runoff models on a midsized semiarid watershed. Water Resources Research. 30:(3):1994;593-605
33. Miller D.A., White R.A. A Conterminous United States multi-layer soil characteristics data set for regional climate and hydrology modeling. Earth Interactions, 2. 1999;. available at http://EarthInteractions.org
34. Moore I.D., Grayson R.B. Terrain-based catchment partitioning and runoff Prediction using vector elevation data. Water Resources Research. 27:(6):1991;1177-1191
35. Naden P.S. Spatial variability in flood estimation for large catchments: the exploitation of channel network structure. Hydrological Sciences Journal. 37:(1):1992;53-71
36. Neuf F. Can we model the rainfall-runoff process today? Hydrological Sciences Bulletin. 26:(3):1981;281-289
37. Obled C.H., Wendling J., Beven K. The sensitivity of hydrological models to spatial rainfall patterns: an evaluation using observed data. Journal of Hydrology. 159:1994;305-333
38. Ogden F.L., Julien P.Y. Runoff model sensitivity to radar rainfall resolution. Journal of Hydrology. 158:1994;1-18
39. Reed S., Koren V., Zhang Z., Smith M., Seo D.-J. Distributed modeling for improved NWS river forecasts. Proceedings of the Second Federal Interagency Hydrologic Modeling Conference, Las Vegas, NV. 2002
40. Rinaldo A., Vogel G.K., Rigon R., Rodriguez-Iturbe I. Water Resources Research. 31:(4):1995;1119-1127
41. Robinson J.S., Sivapalan M. Catchment-scale runoff generation model by aggregation and similarity analysis. Kalma J.D., Sivapalan M. Scale Issues in Hydrological Modeling. 1995;311-330 Wiley, New York
42. Rukovodstvo po Hidrologicheskim Prognosam (Manual on Hydrological Forecasting), 1989, Kratkosrochniy prognoz raschoda i urovnay vody na rekach (Short-term forecast of river discharge and stage) vol. 2, Gidrometeoizdat, St. Petersburg Russia (in Russian).
43. Schumann A.H. Development of conceptual semi-distributed hydrological models and estimation of their parameters with the aid of GIS. Journal of Hydrological Sciences. 6:1993;519-528
44. Seo D.-J., Breidenbach J.P. Real-time correction of spatially nonuniform bias in radar rainfall data using rain gauge measurements. Journal of Hydrometeorology. 1:2002;222-240
45. Seo, D.-J., Koren, V., Cajina, N., 2003. Real-time variational assimilation of hydrologic and hydrometeorological data into operational hydrologic forecasting, Journal of Hydrometeorology, 3, 627-641.
46. Seyfried M.S., Wilcox B.P. Scale and the nature of spatial variability: field examples having implications for hydrologic modeling. Water Resources Research. 31:(1):1995;173-184
47. Singh V.P. Kinematic Wave Modeling in Water Resources, Surface-Water Hydrology. 1996;Wiley, London
48. Skahill, B.S., Johnson, L.E., 1999. Evaluation of Finite Difference Methods for a Distributed Rainfall-Runoff Model. NOAA Technical Memorandum ERL FSL-23, Forecast System Lab., Boulder, CO.
49. Smith A.A. A generalized approach to kinematic flood routing. Journal of Hydrology. 45:1980;71-89
50. Smith M.B., Laurine D., Koren V., Reed S., Zhang Z. Hydrologic model calibration in the National Weather Service. Duan Q., Sorooshian S., Gupta H., Rosseau A., Turcotte R. Calibration of Watershed Models. Water Science and Applications. 2003;. 6, AGU, pp. 133-152
51. Strahler A.N. Quantitative analysis of watershed geomorphology. Transactions of the American Geophysics Union. 38:1957;913-920
52. Sylvestre J., Sylvestre P. FLDWAV application: transitioning from calibration to operational mode. Proceedings of the Second Federal Interagency Hydrologic Modeling Conference, Las Vegas, NV. 2002
53. Tokar A.S., Johnson P. Optimization of river characteristics in the Blue Nile watershed; Technical Note 121. Koren V. NFS 3.0 Reference Manual. 1995;US Department of Commerce, NOAA, Silver Spring, MD
54. Vieux B.E., Moreda F.G. Ordered physics-based parameter adjustment of a distributed model. Duan Q., Sorooshian S., Gupta H., Rosseau H., Turcotte R. Calibration of Watershed Models, Water Science and Applications, 6. 2003;267-282 AGU
55. Wang M., Hjelmfelt A.T., Garbrecht J. DEM aggregation for watershed modeling. Journal of the American Water Resources Association. 36:(3):2000;579-584
56. Watson F.G.R., Grayson R.B., Vertessy R.A., McMahon T.A. Large scale distribution modeling and the utility of detailed data. Hydrological Processes. 12:(6):1998;873-888
57. White D. Grid-based application of runoff curve numbers. ASCE Journal of Water Resources Planning and Management. 114:(6):1988;601-612
58. Wigmosta M.S., Vail L.W., Lettenmaier D.P. A distributed hydrology-vegetation model for complex terrain. Water Resources Research. 30:(6):1994;1665-1679
59. Wilcox B.P., Rawls W.J., Brakensiek D.L., Wight J.R. Predicting runoff from rangeland catchments: a comparison of two models. Water Resources Research. 26:(10):1990;2401-2410
60. Willemin J.H. Hack's law: sinuosity, convexity, elongation, WRR. 36:(11):2000;3365-3374
61. Willgoose G., Kuczera G. Estimation of subgrid scale kinematic wave parameters for hillslopes. Kalma J.D., Sivapalan M. Scale Issues in Hydrological Modeling, Advances in Hydrological Processes. 1995;227-240 Wiley, London
62. Woolhiser D.A. Search for physically based runoff model - a hydrologic El Dorado? ASCE Journal of Hydraulic Engineering. 122:(3):1996;122-129
63. Young C.B., Bradley A.A., Krajewski W.F., Kruger A. Evaluating NEXRAD multisensor precipitation estimates for operational hydrologic forecasting. Journal of Hydrometeorology. 1:2000;241-254
64. Zhang Z., Koren V., Smith M., Reed S., Wang D. Use of NEXRAD data and basin disaggregation to improve continuous hydrograph simulations. Journal of Hydrologic Engineering. 2004;. 9 (2) 103-115