| [1] | SUN J, FLICHER D, LILLY D. Recovery of three-dimensional wind and temperature fields from single-Doppler radar data [J]. J. Atmos. Sci., 1991, 48(6): 876-890. |
| [2] | LAROCHE S, ZAWADZKI I. A variational analysis method for retrieval of three-dimensional wind field from single Doppler radar data [J]. J. Atmos. Sci., 1994, 51(18): 2664-2682. |
| [3] | LIU Li-ping. Experimental study of using double Doppler radar inversing three-dimensional wind field of precipitation system [J]. Quart. J. Appl. Meteor., 2003, 14(4): 502-506. |
| [4] | ZHOU Hai-guang, ZHANG Pei-yuan. A new technique of recovering three-dimensional wind fields from simulated dual-doppler radar data in the Cartesian space [J]. Acta Meteor. Sinica, 2002, 60(5): 585-593. |
| [5] | TANG Xi-ba, XUE Ji-shan. Preliminary study of the use of cosmic data in the global 3-dimensional variance assimilation system of grapes [J]. J. Trop. Meteor., 2009, 25(5): 521-531. |
| [6] | QIU Chong-jian, YU Jin-xiang. Use of Doppler-radar data in improving short-term prediction of mesoscale weather [J]. Acta Meteor. Sinica, 2000, 58(2): 244-249. |
| [7] | XU Jia-liang, MU Hai-zhen, Numerical simulation and analysis of offshore wind field features in Shanghai under the influence of typhoon [J]. J. Trop. Meteor., 2009, (3): 281-286 (in Chinese). |
| [8] | GAO J D, COAUTHORS. Multiple Doppler wind analysis and assimilation via 3DVAR using Simulated observations of the Planned Case Network and WSR-88D radars [C]. 32nd Conf. Radar Meteor. Albuquerque, NM: Amer. Meteor. Soc., 2005. |
| [9] | WOLLCOTT S W, WARNRE T T. A humidity initialization utilizing surface and satellite data [J]. Mon. Wea. Rev., 1981, 109(9): 1988- 989. |
| [10] | HAASE G, CREWELL S, SIMMER C, ct al. Assimilation of radar data in mesoscale models: Physical initialization and latent heat nudging [J]. Phys. Chem. Earth, 2000, 25(12): 1237-1242. |
| [11] | MILAN M, AMEN F, VENEMA V, et al. Physical initialization to incorporate radar precipitation data into a numerical weather prediction model (Local model) [R]. The 32nd Conference on Radar Meteorology, American Meteorological Society, Albuquerque, New Mexico, August 18 2005. |
| [12] | ZHANG J. Moisture and diabatic initialization based on radar and satellite observations [D]. Norman, Oklahoma, 1999. |
| [13] | TUO Ya, LIANG Hai-he, MA Shu-fen, et al. A preliminary research on improving MM5 initial fields using radar data [J]. J. Nanjing Inst. Meteor., 2003, 26(5): 661-664. |
| [14] | WANG W, WARNER T T. Use of four-dimensional data assimilation by Newtonian relaxation and latent-heat forcing to improve a mesoscale-model precipitation forecast: A case study [J]. Mon. Wea. Rev., 1988, 116(12): 2593-2613. |
| [15] | GUO Xia, DANG Qing-ren. The use of radar data in the numerical simulation of heavy rainfalls in the Changjiang-Huaihe Rivers basin [J]. J. Trop. Meteor., 1999, 15(4): 352-362. |
| [16] | LI Yong-ping, YUAN Zhao-hong, WANG Xiao-feng. Microphysical adjustments using reflectivity of Doppler radar for mesoscale model [J]. Quar. J. Appl. Meteor., 2004, 15(6): 658-666. |
| [17] | BREWSTER K. Application of a Bratserth analysis scheme including Doppler radar data [C]. 15th Conference on Weather Analysis and Forecasting, Amer. Meteor. Soc., Norfolk, 1996: 92-95. |
| [18] | CHEN Zi-tong, WAN Qi-lin, SHEN Xun-shun, et al. Comparisons and improvement of water vapor advection schemes of grapes regional model [J]. J. Trop. Meteor., 2010, 26(1): 1-6. |
| [19] | QIN Yan-yan, LI Bo, ZHANG Pei-yuan. A study of the relationship between radar reflectivity of rain and relative humidity of atmosphere [J]. Chin. J. Atmos. Sci., 2006, 30(2): 351-359. |