García-Bartual R. and Marco, J.: A stochastic model of the internal structure of convective precipitation in time at a raingauge site, J. Hydrol., 118, 129–142 , 1990.
García-Bartual, R. and Schneider, M.: Estimating maximum expected short-duration rainfall intensities from extreme convective storms, Phys. Chem. Earth Pt. B, 26(9), 675–681, 2001.
Feral, L., Mesnard, F., Sauvageot, H., Castanet, L., and Lemorton, J.: Rain cells shape and orientation distribution in South-West of France, Phys. Chem. Earth Pt. B, 25(10–12), 1073–1078, 2000.
Llasat, M. C.: An objective classification of rainfall events on the basis of their convective features: Application to rainfall intensity in the north-east of Spain, Int. J. Climatol., 21, 1385–1400, 2001.
Llasat, M. C., Ceperuelo, M., and Rigo, T.: Rainfall regionalization on the basis of the precipitation convective features using a raingauge network and weather radar observations, Atmos. Res., 83, 415–426, https://doi.org/10.1016/j.atmosres.2005.08.014, 2007.
Morin, E. and Gabella, M.: Radar-based quantitative precipitation estimation over Mediterranean and dry climate regimes, J. Geophys. Res., 112, D20108, https://doi.org/10.1029/2006JD008206, 2007.
Morin, E., Goodrich, D. C., Maddox, R. A., Gao, X., Gupta, H. V., and Sorooshian, S.: Rainfall modelling for integrating radar information into hydrological model, Atmos. Sci. Lett., 6(1), 23–30, 2005.
Morin, E., Goodrich, D. C., Maddox, R. A., Gao, X., Gupta, H. V., and Sorooshian, S.: Spatial patterns in thunderstorm rainfall events and their coupling with watershed hydrological response, Adv. Water Resour., 29, 843–860, 2006.
Northrop, P. J.: A clustered spatial-temporal model of rainfall, P. Roy. Soc. Lond., A454, 1875–1888, 1998.
Rigo, T. and Llasat, M. C.: A methodology for the classification of convective structures using meteorological radar: Application to heavy rainfall events on the Mediterranean coast of the Iberian Peninsula, Nat. Hazards Earth Syst. Sci., 4, 59–68, 2004.
Rigo, T. and Llasat, M. C.: Analysis of mesoscale convective systems in Catalonia using meteorological radar for the period 1996–2000, Atmos. Res., 83, 458–472 , 2007.
Sánchez-Diezma, R.: Optimización de la medida de lluvia por radar meteorológico para su aplicación hidrológica, Ph. D. Thesis, Universitat Politecnica de Catalunya, 313 pp., 2001.
Syed, K. H., Goodrich, D. C., Myers, D. E., and Sorooshian, S.: Spatial characteristics of thunderstorm rainfall fields and their relation to runoff, J. Hydrol., 271, 1–21, 2003.
Trapero, L., Bech, J., Rigo, T., Pineda, N., and Forcadell, D.: Uncertainty of precipitation estimates in convective events by the Meteorological Service of Catalonia radar network, Atmos. Res., 93(1–3), 408–418, 4th European Conference on Severe Storms – 4ECSS, 4th European Conference on Severe Storms, 2009
Von Hardenberg, J., Ferraris, L., and Provenzale, A.: The shape of convective rain cells, Geophys. Res. Lett., 30(24), 2280, https://doi.org/10.1029/2003GL018539, 2003.
Wheater, H. S., Isham, V. S., Cox, D. R., Chandler, R. E., Kakou, A., Northrop, P. J., Oh, L., Onof, C., and Rodriguez-Iturbe, I.: Spatial-temporal rainfall fields: modelling and statistical aspects, Hydrol. Earth Syst. Sci., 4, 581–601, 2000.
Willems, P.: A spatial rainfall generator for small spatial scales, J. Hydrol., 252, 126–144, 2001.