Binary-Sequence Frequency Hopping Communication Method Based on Pseudo-Random Linear Frequency Modulation

To improve the signal detection performance of binary-sequence frequency hopping communication when the complementary channel is jammed, a binary-sequence frequency hopping communication system based on pseudo-random liner frequency modulation (LFM) is proposed. The transmitting end uses the chirp s...

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Bibliographic Details
Published in:Shanghai jiao tong da xue xue bao 2021, Vol.26 (4), p.534-542
Main Authors: Tang, Zhiqiang, Quan, Houde, Sun, Huixian, Cui, Peizhang
Format: Article
Language:English
Subjects:
Architecture
Bit error rate
Chirp signals
Communications systems
Computer Science
Electrical Engineering
Engineering
Fourier transforms
Frequency dependence
Frequency hopping
Frequency modulation
Jamming
Jamming performance
Life Sciences
Materials Science
Military communications
Pseudorandom
Signal detection
Signal processing
Spread spectrum
Spread spectrum transmission
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Summary:To improve the signal detection performance of binary-sequence frequency hopping communication when the complementary channel is jammed, a binary-sequence frequency hopping communication system based on pseudo-random liner frequency modulation (LFM) is proposed. The transmitting end uses the chirp signal to carry out the in-band spread spectrum of the binary-sequence frequency hopping signal, and then sends it out through the radio frequency front end. At the receiving end, the received signal is dehopped and processed by fractional Fourier transform. The source information is obtained by sampling decision. Firstly, a binary-sequence frequency hopping system model based on pseudo-random LFM is constructed. Secondly, the bit error rate expression of anti-partial band jamming and follower jamming under the Rice channel is derived. The results show that this method has at least 5 dB performance gain than binary sequence frequency hopping for different parameter settings under partial band jamming and follower jamming, and the anti-jamming performance is significantly better than the conventional frequency hopping communication.
ISSN:1007-1172
1995-8188
DOI:10.1007/s12204-020-2250-8