Performance Study of an FFH/BFSK Self-Normalizing Receiver with Multitone Jamming's Frequency Offsets

Performance Study of an FFH/BFSK Self-Normalizing Receiver with Multitone Jamming’s Frequency Offsets

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摘要 This study investigates how frequency offsets of multitone jamming affect the fast frequencyhopped binary frequency shift keying （FFH/BFSK） self-normalizing （SNZ） receiver under additive white Gaussian noise （AWGN）. The average bit-error-rate （BER） expressions of the FFH/BFSK SNZ receiver and the average BER expressions of an FFH/BFSK spread-spectrum （SS） communication system with frequency offsets of multitone jamming for the sake of understanding the simulation results better. Simulation results show that BER performance of the FFH/BFSK SNZ receiver with diversity under the worst case multitone jamming （MTJ） and AWGN suffers from multitone jamming＇s frequency offsets when the jamming power is moderate, which is validated by several simulations with different frequency offsets configured in multitone jamming. Therefore, an FFH/BFSK SNZ receiver under multitone jamming can be combated with the help of frequency offsets of multitone jamming. This study investigates how frequency offsets of multitone jamming affect the fast frequencyhopped binary frequency shift keying （FFH/BFSK） self-normalizing （SNZ） receiver under additive white Gaussian noise （AWGN）. The average bit-error-rate （BER） expressions of the FFH/BFSK SNZ receiver and the average BER expressions of an FFH/BFSK spread-spectrum （SS） communication system with frequency offsets of multitone jamming for the sake of understanding the simulation results better. Simulation results show that BER performance of the FFH/BFSK SNZ receiver with diversity under the worst case multitone jamming （MTJ） and AWGN suffers from multitone jamming＇s frequency offsets when the jamming power is moderate, which is validated by several simulations with different frequency offsets configured in multitone jamming. Therefore, an FFH/BFSK SNZ receiver under multitone jamming can be combated with the help of frequency offsets of multitone jamming.

作者 Chao Wei Yu-Fan Cheng

机构地区 National Key Laboratory of Communications

出处《Journal of Electronic Science and Technology》 CAS 2010年第2期97-102,共6页 电子科技学刊（英文版）

基金 supported by the National Natural Science Foundation of China under Grant No. 60502010 the National Basic Research Program of China under Grant No. A1420080150 the Science Foundation of National Defense Key Laboratory under Grant No.9140C0204010703

关键词 Index Terror. Combatting fast frequency hopping multitone jamming offsets of frequency self- normalizing receiver. Index Terror. Combatting, fast frequency hopping, multitone jamming, offsets of frequency, self- normalizing receiver.

分类号 TN92 [电子电信—通信与信息系统] TN929.5 [电子电信—通信与信息系统]

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Performance Study of an FFH/BFSK Self-Normalizing Receiver with Multitone Jamming's Frequency Offsets

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