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Spatiotemporal Precipitation Estimation from Rain Gauges and Meteorological Radar Using Geostatistics

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Spatiotemporal Precipitation Estimation from Rain Gauges and Meteorological Radar Using Geostatistics

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Cassiraga, EF.; Gómez-Hernández, JJ.; Berenguer, M.; Sempere-Torres, D.; Rodrigo-Ilarri, J. (2021). Spatiotemporal Precipitation Estimation from Rain Gauges and Meteorological Radar Using Geostatistics. Mathematical Geosciences. 53(4):499-516. https://doi.org/10.1007/s11004-020-09882-1

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Metadatos del ítem

Título: Spatiotemporal Precipitation Estimation from Rain Gauges and Meteorological Radar Using Geostatistics
Autor: Cassiraga, Eduardo Fabián Gómez-Hernández, J. Jaime Berenguer, Marc Sempere-Torres, Daniel Rodrigo-Ilarri, Javier
Entidad UPV: Universitat Politècnica de València. Departamento de Ingeniería Hidráulica y Medio Ambiente - Departament d'Enginyeria Hidràulica i Medi Ambient
Fecha difusión:
Resumen:
[EN] Automatic interpolation of precipitation maps combining rain gauge and radar data has been done in the past but considering only the data collected at a given time interval. Since radar and rain gauge data are collected ...[+]
Palabras clave: Rain interpolation , Space-time modeling , Lagrangian extrapolation , Automatic modeling
Derechos de uso: Reserva de todos los derechos
Fuente:
Mathematical Geosciences. (issn: 1874-8961 )
DOI: 10.1007/s11004-020-09882-1
Editorial:
Springer-Verlag
Versión del editor: https://doi.org/10.1007/s11004-020-09882-1
Código del Proyecto:
info:eu-repo/grantAgreement/EC/H2020/700099/EU/EnhANcing emergencY management and response to extreme WeatHER and climate Events/
info:eu-repo/grantAgreement/MINECO//CGL2014-60700-R/ES/DESARROLLO Y EVALUACION DE UN SISTEMA DE PREVISION DE LA AMENAZA DE INUNDACIONES RELAMPAGO EN ESPAÑA/
Agradecimientos:
This work has been done in the framework of the Spanish Project FFHazF (CGL2014-60700) and the EC H2020 project ANYWHERE (DRS-1-2015-700099). Thanks are due to the Meteorological Service of Catalonia for providing the radar ...[+]
Tipo: Artículo

References

Aran M, Amaro J, Arús J, Bech J, Figuerola F, Gayà M, Vilaclara E (2009) Synoptic and mesoscale diagnosis of a tornado event in Castellcir, Catalonia, on 18th October 2006. Atmos Res 93:147–160

Azimi-Zonooz A, Krajewski W, Bowles D, Seo D (1989) Spatial rainfall estimation by linear and non-linear co-kriging of radar-rainfall and raingage data. Stoch Hydrol Hydraul 3:51–67

Bech J, Pascual R, Rigo T, Pineda N, López J, Arús J, Gayá M (2007) An observational study of the 7 September 2005 Barcelona Tornado outbreak. Nat Hazards Earth Syst Sci 7:129–139 [+]
Aran M, Amaro J, Arús J, Bech J, Figuerola F, Gayà M, Vilaclara E (2009) Synoptic and mesoscale diagnosis of a tornado event in Castellcir, Catalonia, on 18th October 2006. Atmos Res 93:147–160

Azimi-Zonooz A, Krajewski W, Bowles D, Seo D (1989) Spatial rainfall estimation by linear and non-linear co-kriging of radar-rainfall and raingage data. Stoch Hydrol Hydraul 3:51–67

Bech J, Pascual R, Rigo T, Pineda N, López J, Arús J, Gayá M (2007) An observational study of the 7 September 2005 Barcelona Tornado outbreak. Nat Hazards Earth Syst Sci 7:129–139

Bech J, Pineda N, Rigo T, Aran M, Amaro J, Gayà M, Arús J, Montanyà J, van der Velde O (2011) A mediterranean nocturnal heavy rainfall and tornadic event. Part I: overview, damage survey and radar analysis. Atmos Res 100:621–637

Berenguer M, Sempere-Torres D, Pegram GG (2011) Sbmcast-an ensemble nowcasting technique to assess the uncertainty in rainfall forecasts by Lagrangian extrapolation. J Hydrol 404:226–240

Berenguer M, Sempere-Torres D, Hürlimann M (2015) Debris-flow forecasting at regional scale by combining susceptibility mapping and radar rainfall. Nat Hazards Earth Syst Sci 15:587–602

Bochner S (1949) Fourier transforms. Princeton University Press, London, p 219

Brown PE, Diggle PJ, Lord ME, Young PC (2001) Space–time calibration of radar rainfall data. J R Stat Soc Ser C 50:221–241

Calheiros R, Zawadzki I (1987) Reflectivity-rain rate relationships for radar hydrology in Brazil. J Climate Appl Meteorol 26:118–132

Chumchean S, Seed A, Sharma A (2006) Correcting of real-time radar rainfall bias using a Kalman filtering approach. J Hydrol 317:123–137

Corral C, Velasco D, Forcadell D, Sempere-Torres D, Velasco E (2009) Advances in radar-based flood warning systems. the EHIMI system and the experience in the Besòs flash-flood pilot basin

Creutin J, Delrieu G, Lebel T (1988) Rain measurement by raingage-radar combination: a geostatistical approach. J Atmos Ocean Technol 5:102–115

Delrieu G, Annette W, Brice B, Dominique F, Laurent B, Pierre-Emmanuel K (2014) Geostatistical radar-raingauge merging: a novel method for the quantification of rain estimation accuracy. Adv Water Resour 71:110–124

Deutsch C (1991) The relationship between universal kriging, kriging with an external drift and cokriging. SCRF report 4

Germann U, Turner B, Zawadzki I (2006) Predictability of precipitation from continental radar images. Part IV: limits to prediction. J Atmos Sci 63:2092–2108

Goudenhoofdt E, Delobbe L (2009) Evaluation of radar-gauge merging methods for quantitative precipitation estimates. Hydrol Earth Syst Sci 13:195–203

Harrold T, Austin P (1974) The structure of precipitation systems—a review. J Rech Atmos 8:41–57

Hevesi JA, Istok JD, Flint AL (1992a) Precipitation estimation in mountainous terrain using multivariate geostatistics. Part I: structural analysis. J Appl Meteorol 31:661–676

Hevesi JA, Istok JD, Flint AL (1992b) Precipitation estimation in mountanious terrain using multivariate geostatistics. Part II: isohyetal maps. J Appl Meteorol 31:677–688

Jewell SA, Gaussiat N (2015) An assessment of kriging-based rain-gauge-radar merging techniques. Q J R Meteorol Soc 141:2300–2313

Journel AG, Rossi M (1989) When do we need a trend model in kriging? Math Geol 21:715–739

Krajewski WF (1987) Cokriging radar-rainfall and rain gage data. J Geophys Res Atmos 92:9571–9580

Mateo J, Ballart D, Brucet C, Aran M, Bech J (2009) A study of a heavy rainfall event and a tornado outbreak during the passage of a squall line over Catalonia. Atmos Res 93:131–146

Pulkkinen S, Koistinen J, Kuitunen T, Harri AM (2016) Probabilistic radar-gauge merging by multivariate spatiotemporal techniques. J Hydrol 542:662–678

Rinehart R, Garvey E (1978) Three-dimensional storm motion detection by conventional weather radar. Nature 273:287

Rosenfeld D, Wolff DB, Atlas D (1993) General probability-matched relations between radar reflectivity and rain rate. J Appl Meteorol 32:50–72

Rosenfeld D, Wolff DB, Amitai E (1994) The window probability matching method for rainfall measurements with radar. J Appl Meteorol 33:682–693

Rosenfeld D, Amitai E, Wolff DB (1995) Improved accuracy of radar WPMM estimated rainfall upon application of objective classification criteria. J Appl Meteorol 34:212–223

Sempere-Torres D, Corral C, Raso J, Malgrat P (1999) Use of weather radar for combined sewer overflows monitoring and control. J Environ Eng 125:372–380

Seo DJ (1998) Real-time estimation of rainfall fields using radar rainfall and rain gage data. J Hydrol 208:37–52

Seo DJ, Krajewski WF, Bowles DS (1990) Stochastic interpolation of rainfall data from rain gages and radar using cokriging: 1. Design of experiments. Water Resour Res 26:469–477

Sideris I, Gabella M, Erdin R, Germann U (2014) Real-time radar-rain-gauge merging using spatio-temporal co-kriging with external drift in the alpine terrain of Switzerland. Q J R Meteorol Soc 140:1097–1111

Sinclair S, Pegram G (2005) Combining radar and rain gauge rainfall estimates using conditional merging. Atmos Sci Lett 6:19–22

Sun X, Mein R, Keenan T, Elliott J (2000) Flood estimation using radar and raingauge data. J Hydrol 239:4–18

Todini E (2001) A bayesian technique for conditioning radar precipitation estimates to rain-gauge measurements. Hydrol Earth Syst Sci Dis 5:187–199

Velasco-Forero CA, Sempere-Torres D, Cassiraga EF, Gómez-Hernández JJ (2009) A non-parametric automatic blending methodology to estimate rainfall fields from rain gauge and radar data. Adv Water Resour 32:986–1002

Wilson JW, Brandes EA (1979) Radar measurement of rainfall—a summary. Bull Am Meteorol Soc 60:1048–1060

Yao T, Journel AG (1998) Automatic modeling of (cross) covariance tables using fast fourier transform. Math Geol 30:589–615

Yoon SS, Bae DH (2013) Optimal rainfall estimation by considering elevation in the Han River Basin, South Korea. J Appl Meteorol Climatol 52:802–818

Zawadzki I (1973) Statistical properties of precipitation patterns. J Appl Meteorol 12:459–472

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