Fast capture technique for concealing communication of low earth orbit satellite

Hang Cheng Han; Jian Ping An; Hai Ying Shang

Fast capture technique for concealing communication of low earth orbit satellite

Hang Cheng Han^*, Jian Ping An, Hai Ying Shang

^*Corresponding author for this work

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Low-orbit satellite communication system has the features of low SNR receiver, large Doppler shift and fast capture requirement. To meet those demands in concealing communication, this article presents a time-frequency two-dimensional quasi-parallel multi-symbol cumulative capture algorithm. The critical parameters of the algorithm have been designed and optimized. The loaded prototype and signal processing platform have been built to test the performance of the designed algorithm. The test results show that all the indexes meet the project requirements. Under the conditions of that the symbol rate is 1 ksample/s, Doppler frequency shift is ±50 kHz and the receiver E _s/N ₀ is no more than 3 dB, the capture time is less than 100 ms and the probability of missed detection is less than 0.003.

Original language	English
Pages (from-to)	492-497
Number of pages	6
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	32
Issue number	5
Publication status	Published - May 2012

Keywords

Concealing communication
Direct-sequence spread spectrum
Large Doppler frequency shift
Low-orbit satellite (LEO)
Rapid capture

Cite this

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title = "Fast capture technique for concealing communication of low earth orbit satellite",

abstract = "Low-orbit satellite communication system has the features of low SNR receiver, large Doppler shift and fast capture requirement. To meet those demands in concealing communication, this article presents a time-frequency two-dimensional quasi-parallel multi-symbol cumulative capture algorithm. The critical parameters of the algorithm have been designed and optimized. The loaded prototype and signal processing platform have been built to test the performance of the designed algorithm. The test results show that all the indexes meet the project requirements. Under the conditions of that the symbol rate is 1 ksample/s, Doppler frequency shift is ±50 kHz and the receiver E s/N 0 is no more than 3 dB, the capture time is less than 100 ms and the probability of missed detection is less than 0.003.",

keywords = "Concealing communication, Direct-sequence spread spectrum, Large Doppler frequency shift, Low-orbit satellite (LEO), Rapid capture",

author = "Han, {Hang Cheng} and An, {Jian Ping} and Shang, {Hai Ying}",

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T1 - Fast capture technique for concealing communication of low earth orbit satellite

AU - Han, Hang Cheng

AU - An, Jian Ping

AU - Shang, Hai Ying

PY - 2012/5

Y1 - 2012/5

N2 - Low-orbit satellite communication system has the features of low SNR receiver, large Doppler shift and fast capture requirement. To meet those demands in concealing communication, this article presents a time-frequency two-dimensional quasi-parallel multi-symbol cumulative capture algorithm. The critical parameters of the algorithm have been designed and optimized. The loaded prototype and signal processing platform have been built to test the performance of the designed algorithm. The test results show that all the indexes meet the project requirements. Under the conditions of that the symbol rate is 1 ksample/s, Doppler frequency shift is ±50 kHz and the receiver E s/N 0 is no more than 3 dB, the capture time is less than 100 ms and the probability of missed detection is less than 0.003.

AB - Low-orbit satellite communication system has the features of low SNR receiver, large Doppler shift and fast capture requirement. To meet those demands in concealing communication, this article presents a time-frequency two-dimensional quasi-parallel multi-symbol cumulative capture algorithm. The critical parameters of the algorithm have been designed and optimized. The loaded prototype and signal processing platform have been built to test the performance of the designed algorithm. The test results show that all the indexes meet the project requirements. Under the conditions of that the symbol rate is 1 ksample/s, Doppler frequency shift is ±50 kHz and the receiver E s/N 0 is no more than 3 dB, the capture time is less than 100 ms and the probability of missed detection is less than 0.003.

KW - Concealing communication

KW - Direct-sequence spread spectrum

KW - Large Doppler frequency shift

KW - Low-orbit satellite (LEO)

KW - Rapid capture

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JF - Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology

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Fast capture technique for concealing communication of low earth orbit satellite

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Keywords

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