An important advantage of radar observations is their high temporal and spatial resolution data, which are suitable for heavy weather surveillance. The purpose of this study is to improve previous studies, which are to improve the initial field and hence the quantitative precipitation forecast (QPF) of the numerial model by using multiple-Doppler radar observation data. The assimilation technique includes three components: multiple-Doppler radar wind synthesis, thermodynamic retrieval and moisture adjustment. A case during IOP8, Southwest Monsoon Experiment (SoWMEX)2008 is selected in this study. Some problems have not solves in previous studies: such as the pressure field has not been fully assimilated into the model, the boundary of forecast field produces wrong reflectivity, and overestimate of the rainfall. In this study we replace the method of the retrieval pressure embedding the model, and use a newly designed moisture adjustment method. The results show improvement in reflectivity structure and the accuracy precipitation of forecast. In the microphysics schemes test, WSM6 is a reasonable choice. In assimilation test, the model QPF can be significantly improved after assimilating the radar data. In with or without sounding test, it is feasible to use the model outputs to replace the role played by a sounding for estimating the unknown constant at each altitude. In second assimilation study, it can improve the retrieval atmospheric state variables, convection position and QPF in first assimilation. None of the fraction show which strategy is better. These two experiments produce comparable forecast, the model QPF may be more effective when the second DA is postponed until two hours.