All digital spread-spectrum transceiver

Ai Hua Wang; Qi Hua Huang

All digital spread-spectrum transceiver

Ai Hua Wang^*, Qi Hua Huang

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology

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

1 Citation (Scopus)

Abstract

A novel all digital and practical spread-spectrum transceiver used in obvious Doppler shift conditions is presented. 16 parallel channels are used to acquire the PN sequence simultaneously, reducing the acquisition time to 1/16 of that in the single channel mode. The Doppler effect on the processing gain is eliminated with the FFT algorithm. Node synchronization in Viterbi decoding is achieved rapidly using the Barker sequence as the head of interleaving frame. Fast-synchronization in PN code and the carrier is thereby achieved.

Original language	English
Pages (from-to)	776-780
Number of pages	5
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	23
Issue number	6
Publication status	Published - Dec 2003

Keywords

All digital transceiver
BPSK/DS
Direct-sequence spread-spectrum

Cite this

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title = "All digital spread-spectrum transceiver",

abstract = "A novel all digital and practical spread-spectrum transceiver used in obvious Doppler shift conditions is presented. 16 parallel channels are used to acquire the PN sequence simultaneously, reducing the acquisition time to 1/16 of that in the single channel mode. The Doppler effect on the processing gain is eliminated with the FFT algorithm. Node synchronization in Viterbi decoding is achieved rapidly using the Barker sequence as the head of interleaving frame. Fast-synchronization in PN code and the carrier is thereby achieved.",

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N2 - A novel all digital and practical spread-spectrum transceiver used in obvious Doppler shift conditions is presented. 16 parallel channels are used to acquire the PN sequence simultaneously, reducing the acquisition time to 1/16 of that in the single channel mode. The Doppler effect on the processing gain is eliminated with the FFT algorithm. Node synchronization in Viterbi decoding is achieved rapidly using the Barker sequence as the head of interleaving frame. Fast-synchronization in PN code and the carrier is thereby achieved.

AB - A novel all digital and practical spread-spectrum transceiver used in obvious Doppler shift conditions is presented. 16 parallel channels are used to acquire the PN sequence simultaneously, reducing the acquisition time to 1/16 of that in the single channel mode. The Doppler effect on the processing gain is eliminated with the FFT algorithm. Node synchronization in Viterbi decoding is achieved rapidly using the Barker sequence as the head of interleaving frame. Fast-synchronization in PN code and the carrier is thereby achieved.

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KW - BPSK/DS

KW - Direct-sequence spread-spectrum

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All digital spread-spectrum transceiver

Abstract

Keywords

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