High sensitive acquisition of signals for inter-satellite links of navigation constellation based on two-dimension partitioned FFTs

2016 IEEE International Conference on Signal and Image Processing (ICSIP) Pub Date : 2016-08-01 DOI:10.1109/SIPROCESS.2016.7888327

Yinyin Tang, Yueke Wang, Jianyun Chen

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引用次数: 3

Abstract

A direct sequence spread spectrum (DSSS) signal is commonly used in inter-satellite link (ISL) in navigation constellation; however, acquisition is a challenging task because of large-scale relative movement between satellites. In general, a signal search (carrier frequency and code phase) is implemented using two-dimensional partitioned fast Fourier transforms (FFTs), which is limited by the memory of the processor. Nevertheless, the carrier's continuity is damaged by the circular shift. Noncoherent integration is performed to circumvent this problem. However, the acquisition sensitivity will be reduced because of the square loss. In this paper, we analyze the processing flow of traditional noncoherent integration method and the new presented coherent integration method with compensation. Besides, the comparison of computation cost between the new approach and the conventional method is done. Numerical results show that the coherent method can improve the sensitivity of acquiring weak signals and save about 60% computation cost as well.

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基于二维分割fft的导航星座星间链路高灵敏度信号采集

直接序列扩频(DSSS)信号通常用于导航星座的星间链路(ISL);然而，由于卫星之间的大规模相对运动，获取是一项具有挑战性的任务。一般来说，信号搜索(载波频率和码相位)是使用二维分割快速傅里叶变换(fft)来实现的，这受到处理器内存的限制。然而，载波的连续性受到圆周位移的破坏。执行非相干积分来避免这个问题。但由于平方损耗的存在，会降低采集灵敏度。本文分析了传统的非相干积分法和新的带补偿的相干积分法的处理流程。并对新方法与传统方法的计算量进行了比较。数值结果表明，相干方法可以提高微弱信号的获取灵敏度，并节省约60%的计算量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE International Conference on Signal and Image Processing (ICSIP)

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