References
- Ahnert, PR, Krajewski, WF, and Johnson ER (1986). Kalman filter estimation of radar-rainfall field bias, reprints, 23rd Conference on Radar Meteorology, Am. Meter. Soc, Snowmass, CO, pp. JP33-JP37
- Bae, DH, Tran, AP, and Yoon, SS (2009). A Method to Evaluate the Radar Rainfall Accuracy for Hydrological Application. Korea Water Resources Association, 42(12), pp. 1039-1052. [Korean Literature] https://doi.org/10.3741/JKWRA.2009.42.12.1039
- Bae, YH, Kim. BS, Kim, HS, Seo, BH (2007). Radar Rainfall Adjustment by Kalman-Filter Method and Flood Simulation using two Distributed Models. Proceedings of the 2007 Conference of the Korean Society of Civil Engineers, Korean Society of Civil Engineers, pp. 2040-2045. [Korean Literature]
- Barbosa, S (1994). Brief review of radar-raingauge adjustment techniques. Advances in Radar Hydrology, EC, Brussels, pp. 148-169.
- Bedient, PB, Hoblit, BC, Gladwell, DC, Vieux, BE (2000). NEXRAD radar for flood prediction in Houston. Journal of Hydrologic Engineering, 5(3), pp. 269-277. https://doi.org/10.1061/(ASCE)1084-0699(2000)5:3(269)
- Berne, A, Krajewski WF (2012). Radar for hydrology: Unfulfilled promise or unrecognized potential? Advances in Water Resources, 51(35), pp. 357-366.
- Hong. SJ, Kim, BS, Halm, CH (2010). Spatial-Temporal Interpolation of Rainfall Using Rain Gauge and Radar, Journal of the Korean society for geo-spatial information system, 18(3), pp. 37-48. [Korean Literature]
- Javaheri, H (1998) Automatic calibration of urban run-off models using global optimization techniques, M.Sc. thesis, McGill University, Montreal, Canada.
- Kim, BS, Hong, JB, Kim, HS, and Choi, KH (2007). Combining radar and rain gauge rainfall estimates for flood forecasting using conditional merging method. Korean Society of Civil Engineers, 27(3), pp. 255-265. [Korean Literature]
- Kim, KJ, Choi, JH, and Yoo, CS (2008). Synthesis of radar measurements and ground measurements using the Successive Correction Method (SCM). Korea Water Resources Association, 41(7), pp. 681-692. [Korean Literature] https://doi.org/10.3741/JKWRA.2008.41.7.681
- Kim, SJ, Kwon, YS, Lee, KJ, Kim, HS (2010). Radar Rainfall Adjustment by Artificial Neural Network and Runoff Analysis. Journal of Korea Society of Civil Engineers, 30(2B), pp. 159-167. [Korean Literature]
- Krajewski, WF (1987). Co-kriging of radar-rainfall and rain gauge data, Journal of Geophysical Research: Atmospheres, 92(D8), pp. 9571-9580. https://doi.org/10.1029/JD092iD08p09571
- Ministry of Science and Technology (2004). Water Resources Application of Short-and Long Term Weather Forecasts. [Korean Literature]
- Noh, HS, Kang, NR, Kim, BS, Kim, HS (2012). Flood Simulation using Vflo and Radar Rainfall Adjustment Data by Statistical Objective Analysis. Korean Wetlands Society, 14(2), pp. 243-254. [Korean Literature]
- Seo, DJ (1998). Real-time estimation of rainfall fields using radar rainfall and rain gage data. Journal of Hydrology, 208(1-2), pp. 25-36. https://doi.org/10.1016/S0022-1694(98)00140-1
- Vieux, BE, PB. Bedient, E. Mazroi (2005). Real-time urban runoff simulation using radar rainfall and physics-based distributed modeling for site-specific forecasts. 10th International Conference on Urban Drainage.
- Villarini, G, Smith, JA, Baeck, ML, Sturdevant-Rees, P, and Krajewski, WF (2010). Radar analyses of extreme rainfall and flooding in urban drainage basins, Journal of Hydrology, 381(3-4), pp. 266.286.
- Wilson, JW and Brandes, EA (1979). Radar measurement of rainfall - a summary. American Meteorological Society, 60(9), pp. 1048-1058. https://doi.org/10.1175/1520-0477(1979)060<1048:RMORS>2.0.CO;2
- Yoon, SS (2006). Applicability of Radar Rainfall Estimation for Runoff Analysis, Master's Thesis, Sejong university. [Korean Literature]
Cited by
- Evaluation of High-Resolution QPE data for Urban Runoff Analysis vol.48, pp.9, 2015, https://doi.org/10.3741/JKWRA.2015.48.9.719