A Method of Phase Estimation for Sinusoid Signal Based on Correlation Algorithm
Phase difference change rate has been put forward recently, which attracts wide attention as a measuring parameter in the rapid passive positioning system. In the measurement of passive location, positioning accuracy is greatly influenced by the measurement accuracy of corresponding observed quantity and the follow-up effects of wave filtering. A method of phase estimation based on correlation algorithm for sinusoid signal is presented in this paper, which can be used in the design of digital phase interferometer. Using the correlation algorithm method, it is possible to effectively separate part of noise from the useful signal, and also to improve the resistibility to random disturbance and the accuracy of measuring system. The explicit formula explanation in this paper demonstrates that as the most important characteristic of the method, the frequency for received sinusoid signal is not required in advance. The Monte Carlo simulation demonstrates that the phase estimation by this method can be achieved within 1°, which is more accurate than that with the traditional analog phase interferometer; Compared with the other method by FFT in the digital interferometer, the accuracy of this method is better in the low SNR situation.
Chang xiaoming Zhang xiaolin Zhang qiang
School of Electronics and Information Engineering, Beijing University of Aeronautics and Astronautics , Beijing 100191, China
国际会议
International Conference on Space Information Technology 2009(2009年第三届空间信息技术国际会议)
北京
英文
1-6
2009-11-26(万方平台首次上网日期,不代表论文的发表时间)