Doppler estimating and compensating method based on phase 被引量：2

Doppler estimating and compensating method based on phase

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摘要 According to the Doppler sensitive of the phase coded pulse compression signal, a Doppler estimating and compensating method based on phase is put forward to restrain the Doppler sidelobes, raise the signal-to-noise ratio and improve measuring resolution. The compensation method is used to decompose the echo to amplitude and phase, and then compose the new compensated echo by the amplitude and the nonlinear component of the phase. Furthermore the linear component of the phase can be used to estimate the Doppler frequency shift. The computer simulation and the real data processing show that the method has accurately estimated the Doppler frequency shift, successfully restrained the energy leakage on spectrum, greatly increased the echo signal-to-noise ratio and improved the detection performance of the radio system in both time domain and frequency domain. According to the Doppler sensitive of the phase coded pulse compression signal, a Doppler estimating and compensating method based on phase is put forward to restrain the Doppler sidelobes, raise the signal-to-noise ratio and improve measuring resolution. The compensation method is used to decompose the echo to amplitude and phase, and then compose the new compensated echo by the amplitude and the nonlinear component of the phase. Furthermore the linear component of the phase can be used to estimate the Doppler frequency shift. The computer simulation and the real data processing show that the method has accurately estimated the Doppler frequency shift, successfully restrained the energy leakage on spectrum, greatly increased the echo signal-to-noise ratio and improved the detection performance of the radio system in both time domain and frequency domain.

作者 Chen Gang Zhao Zhengyu Nie Xuedong Shi Shuzhu Yang Guobin Su Fanfan

机构地区 Ionosphere Lab Unit

出处《Journal of Systems Engineering and Electronics》 SCIE EI CSCD 2009年第4期681-686,共6页 系统工程与电子技术（英文版）

基金 supported partly by the National Natural Science Foundation of China(40804042) the Post DoctorFoundation of China(20070420919).

关键词 IONOSPHERE Doppler estimation Doppler compensation PHASE ionosphere, Doppler estimation, Doppler compensation, phase

分类号 TP391.9 [自动化与计算机技术—计算机应用技术]

作者简介 Chert Gang was born in 1980. He is a lecturer and post doctor in electronic information school of Wuhan University. His main research interests include detection technology for earth and near-earth space. E-mail： gascan1980@126.com

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Journal of Systems Engineering and Electronics

2009年第4期

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