Fast capturing method for non-coherent spread spectrum signal

A spread-spectrum signal, non-coherent technology, applied in the direction of electrical components, transmission systems, etc., can solve problems such as difficult to obtain integral gain, missed capture, chip drift, etc., and achieve the effect of low implementation complexity

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A spread-spectrum signal, non-coherent technology, applied in the direction of electrical components, transmission systems, etc., can solve problems such as difficult to obtain integral gain, missed capture, chip drift, etc., and achieve the effect of low implementation complexity

CN109474307AInactive Publication Date: 2019-03-1510TH RES INST OF CETC

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[0016] refer to figure 1 . According to the present invention, the following frequency converter 1, resampling unit 2, data storage unit 3, parallel processing unit 14, pseudocode generator 10, branch selection unit 11, precise frequency measurement unit 12 and main control unit 13 construct a non-coherent Spread spectrum signal capture circuit, at first, pseudocode generator 10 produces local spread spectrum code sequence, sends into parallel processing unit 14, and parallel processing unit 14 takes out data from data storage unit 3, carries out multi-channel parallel processing, according to main control unit The slotting control information sent by 13 is divided into frequency slots, and the carrier Doppler is compensated, followed by matched filtering, coherent integration, zero-filled fast Fourier transform FFT and non-coherent integration, and then multiple branch signals Multi-dimensional peak search to obtain phase capture results and rough carrier frequency estimatio...

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Abstract

The invention discloses a fast capturing method for a non-coherent spread spectrum signal, and aims to fast and accurate capturing of spread spectrum code phases and Doppler. The method is implementedthrough the following technical scheme: in a spread spectrum receiving system, a pseudo-code generator generates a local spread spectrum code sequence; the local spread spectrum code sequence is sentto a parallel processing unit for performing multipath parallel processing; frequency slot division is carried out according to slot division control information sent by a main control unit; carrierDoppler is compensated; matched filtering, coherent integration, zero-padding FFT and non-coherent integration are carried out sequentially; multi-dimensional peak value search is carried out on a plurality of branch signals; a phase capturing result and a carrier frequency rough estimation result are obtained; the obtained phase capturing result and carrier frequency rough estimation result are sent to the main control unit; the main control unit sends selection control information to a branch selection unit; and a received signal aligned to a phase of the local spread spectrum code sequenceis selected and output to an accurate frequency measurement unit for estimating a carrier frequency of the received signal.

Description

technical field [0001] The invention relates to a capture technology in the field of wireless communication, in particular to a method for capturing the pseudocode phase and carrier frequency of a non-coherent spread spectrum signal in a spread spectrum receiver. Background technique [0002] The spread spectrum communication system has many advantages that other communication systems cannot match, but there is a prerequisite for obtaining these advantages, that is, normal despreading and demodulation must be realized at the receiving end. There are two ways of despreading: correlated despreading and non-correlated despreading, and correlation despreading is usually used in communication systems. In order to realize correlation despreading and demodulation, it is first necessary to realize accurate estimation of code phase and code Doppler of spread spectrum of received signal. The code Doppler frequency shift r is composed of two parts: one part is the code Doppler frequen...

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Application Information

Patent Timeline

15 Mar 2019

Publication

CN109474307A

IPC: H04B1/7075

CPC: H04B1/7075

Inventors: 马松; 袁田