SEARCH

SEARCH BY CITATION

References

  • Baeck ML, Smith JA. 1998. Rainfall estimation by the WSR-88D for heavy rainfall events. Weather and Forecasting 13: 416436.
  • Browning KA, Collier CG, Larke PR, Menmuir P, Monk GA, Owens RG. 1982. On the forecasting of frontal rain using a weather radar network. Monthly Weather Review 110: 34552.
  • Crane RK. 1979. Automatic cell detection and tracking. IEEE Transactions on Geoscience Electronics 17: 250262.
  • Deng N, Tian Y. 2004. A New Method in Data Mining: Support Vector Machine. Science Press: Beijing, China.
  • Dixon M, Wiener G. 1993. TITAN: thunderstorm identification, tracking, analysis, and nowcasting—a radar-based methodology. Journal of Atmospheric and Oceanic Technology 10: 785797.
  • Greene DR, Clark RA. 1972. Vertically integrated liquid water—a new analysis tool. Monthly Weather Review 100: 548552.
  • Han L, Yu X, Zheng Y, Chen M, Wang H, Lin Y. 2009. Statistic characteristics of severe convective storm during Warm-Season in the Beijing-Tianjin region and its vicinity. Chinese Science Bulletin 54: 24932498.
  • Hand WH, Conway BJ. 1995. An object-oriented approach to nowcasting shower. Weather and Forecasting 10: 327341.
  • Henry SG. 1993. Analysis of thunderstorm lifetime as a function of size and intensity. Proceedings of 26th International Conference on Radar Meteorology, Norman, OK, 24-28 May 1993, American Meteorological Society: Boston, MA; pp 138140.
  • Hu S, Gu S, Zhuang X, Luo H. 2007. Automatic identification of Storm cells using Doppler radars. Acta Meteorological Sinica 21: 353365.
  • Johnson JT, MacKeen PL, Witt A, Mitchell ED, Stumpf GJ, Eilts MD, Thomas KW. 1998. The storm cell identification and tracking algorithm: an enhanced WSR-88d algorithm. Weather and Forecasting 13: 263276.
  • Li PW, Lai EST. 2004. Applications of radar-based nowcasting techniques for mesoscale weather forecasting in HongKong. Meteorological Applications 11: 253264.
  • Li L, Schmid W, Joss J. 1995. Nowcasting of motion and growth of precipitation with radar over a complex orography. Journal of Applied Meteorology 34: 12861300.
  • Liljas E. 1998. COST-78 co-operations on SAFs. Proceedings of SAF Training Workshop—Nowcasting and Very Short Range Forecasting, Madrid, Spain, 9–11 December 1998, European Organisation for the Exploitation of Meteorological Satellites: Darmstadt, Germany; pp 2333.
  • MacKeen PL, Brooks HE, Elmore KL. 1999. Radar reflectivity-derived thunderstorm parameters applied to storm longevity forecasting. Weather and Forecasting 14: 289295.
  • Mecikalski JR, Bedka KM. 2006. Forecasting convective initiation by monitoring the evolution of moving cumulus in daytime GOES imagery. Monthly Weather Review 134: 4978.
  • Rinehart RE, Garvey ET. 1978. Three-dimensional storm motion detected by convective weather radar. Nature 273: 287289.
  • Roberts RD, Rutledge S. 2003. Nowcasting storm initiation and growth using GOES-8 and WSR-88D data. Weather and Forecasting 18: 562584.
  • Rosenfeld D. 1987. Objective method for analysis and tracking of convective cells as seen by radar. Journal of Atmospheric and Oceanic Technology 4: 422434.
  • Shawe-Taylor J, Cristianini N. 2000. Support Vector Machines and other Kernel-based Learning Methods. Cambridge University Press: London, United Kingdom.
  • Steven AA, Wolf PL. 1997. VIL density as a hail indicator. Weather and Forecasting 12: 473478.
  • Vapnik V. 1998. Statistical Learning Theory. John Wiley & Sons: New York, NY.
  • Wilson JW, Crook NA, Mueller CK, Sun J, Dixon M. 1998. Nowcasting thunderstorms: a status report. Bulletin of the American Meteorological Society 79: 20792099.
  • Wilson JW, Megenhardt DL. 1997. Thunderstorm initiation, organization, and lifetime associated with Florida boundary layer convergence lines. Monthly Weather Review 125: 15071525.