A Novel Method of Radio Interferometry Based on Fusion Processing of Explorer Downlink Signal

doi:10.15982/j.issn.2095-7777.2019.03.004

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Journal of Deep Space Exploration ›› 2019, Vol. 6 ›› Issue (3) : 225-231. DOI: 10.15982/j.issn.2095-7777.2019.03.004

Topic：Orbit Determination and Control Technology for Deep Space Exploration

A Novel Method of Radio Interferometry Based on Fusion Processing of Explorer Downlink Signal

LU Weitao^1,2, XIE Jianfeng^1,2, REN Tianpeng^1,2, HAN Songtao^1,2

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Abstract

In view of the commonly used downlink signal of deep space explorer and the characteristics of radio interferometry,a novel interferometry method is proposed to process DOR signal and data-transmission signal simultaneously for frequency synchronization. Firstly, the difference phase of the two kinds of signal is obtained by correlation. While, the time delay is estimated by utilizing DOR signal's difference phase and is modeled during the processing. Then the phase difference between DOR and data-transmission signal at data signal carrier is acquired by using the constructed time delay model, compensating the difference phase of data-transmission signal. Finally,the difference phase of DOR signal and the compensated difference phase are processed for frequency synchronization and time delay estimation. The processing results of measured data in China deep space TT&C network show that the time delay accuracy is improved significantly by fusion process, while the improvement is decreased lightly with the influence of medium delay error. The proposed method improves the accuracy of time delay estimation just by fusion process, which not only promotes the signal use efficiency, but also enhances the robust of the TT&C system,having special significance in emergency situation.

Keywords

deep space exploration / radio interferometry / DOR signal / data-transmission signal / fusion process

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LU Weitao, XIE Jianfeng, REN Tianpeng, HAN Songtao. A Novel Method of Radio Interferometry Based on Fusion Processing of Explorer Downlink Signal. Journal of Deep Space Exploration, 2019, 6(3): 225‒231 https://doi.org/10.15982/j.issn.2095-7777.2019.03.004

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