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A Feedforward Timing Recovery Method Applicable to Satellite Communication Burst Transmission System

A technology of burst transmission and satellite communication, which is applied in transmission systems, digital transmission systems, radio transmission systems, etc., and can solve problems such as increasing the complexity of the receiving system and affecting timing performance

Active Publication Date: 2017-11-07
BEIJING RES INST OF TELEMETRY +1
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In the existing literature on the reception and demodulation of short-term burst signals in satellite communication systems, the general research on algorithm improvement and performance analysis of timing deviation estimation is limited to theoretical research; or research on joint Fourier transform (DFT), The realization of feed-forward timing synchronization engineering of technologies such as Fourier series requires the design of accurate DFT window position and length. Longer DFT processing greatly increases the complexity of the receiving system, resulting in the timing performance being seriously affected by other technologies.
At present, there is no overall technical solution based on the feed-forward timing synchronization structure to solve the problem of accurate timing recovery of the frame head and frame tail.

Method used

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  • A Feedforward Timing Recovery Method Applicable to Satellite Communication Burst Transmission System
  • A Feedforward Timing Recovery Method Applicable to Satellite Communication Burst Transmission System
  • A Feedforward Timing Recovery Method Applicable to Satellite Communication Burst Transmission System

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Embodiment

[0104] In this embodiment, according to the DVB-RCS standard, the return link adopts the ATM cell mode, and when the Turbo code efficiency is 1 / 2 and QPSK modulation is adopted, the data frame length N=472, and the frame header length N p 48, data payload length N-N p is 424, and the data length for data accumulation is L=100.

[0105] (1) Utilize ADC to carry out oversampling and digital quantization to the received signal, and obtain digital signal x(k) (k=1, 2, ..., 4 * 472) by matched filter;

[0106] (2) Store 400 sampling data x(1), x(2),...,x(400) into FIFO sequentially, among them x(1), x(5), x(9),... , x(397) carry out the square rate calculation respectively, and the calculation results are accumulated to obtain the accumulated value S 1 ; Wherein x(2), x(6), x(10), ..., x(398) carry out the calculation of the square rate respectively, and accumulate the calculation results to obtain the accumulated value S 2 ; and so on, to get the accumulated value S 3 and S 4...

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Abstract

The invention relates to a feed-forward timing recovery method suitable for a satellite communication burst transmission system. According to the method, timing deviation estimation is realized on the basis of a sliding accumulation method, so that the estimation accuracy can be increased, the calculated amount of timing deviation estimation is effectively reduced, and continuous processing of burst transmission data is realized. In the method, calculation is performed by adopting signal amplitude and a frame header is detected by adopting cross-correlation operation, so that the influence of signal frequency deviation on the timing deviation estimation can be avoided, namely, the signal frequency deviation does not need to be estimated. The feed-forward timing recovery method can be applied under the condition of severe channel environment, and is easy for engineering realization. The sampling clock period of a digital receiver is set to be a quarter of a symbol period, and the working frequency of the receiver is low.

Description

technical field [0001] The invention relates to the technical field of digital wireless communication transmission, in particular to a feedforward timing recovery method suitable for a satellite burst transmission system. Background technique [0002] In wideband satellite communication system receivers, symbol timing recovery is a key factor affecting the performance of demodulation reception. Classical symbol timing synchronization algorithms mainly include feedback phase-locking and feed-forward estimation methods. Among them, feedback timing synchronization generally adopts a phase-locked loop structure, and it takes a long time to converge the phase-locked loop, which inevitably causes data loss at the beginning of the transmission frame during each capture process, thereby reducing system Spectrum utilization. Therefore, it is often used in continuous data transmission applications such as broadcast transmission system DVB-S2 (second generation satellite digital vide...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04L7/00H04L25/02H04B7/185
Inventor 闫朝星马荣周三文卢满宏
Owner BEIJING RES INST OF TELEMETRY
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