关键词: 星载天气雷达, 谱参数估计, 气象回波特征, 离散傅里叶变换, 脉冲对处理

Abstract: The spectral estimation method based on the Fourier analysis（DFT） has been widely used in Doppler weather radar to measure rainfall velocity, and has proved to be almost optimal for small normalized spectral widths[(σN)]. However, the approach limites to small [σN][(σN<0.1)], which ground and space based Doppler weather radar satisfies. Developing a Doppler weather radar installed in the geostationary orbit satellite for the global vertical precipitation rate has become necessary. This paper extends a spectral moments estimation approach for spaceborne radar with larger values of [σN][(σN～0.2)]. By comparing with several other forms of DFT spectrum estimation methods and the Pulse Pair Process（PPP）, the simulation results show that for the same system parameters, the proposed new method has the optimal performance and better than 0.5 m/s Doppler velocity accuracy.

Key words: spaceborne weather radar, spectral moments estimation, characteristics of weather echo signal, Discrete Fourier Transform（DFT）, Pulse Pair Process（PPP）