Abstract A scheme of synchronized injection multi-quantum-well (MQW) laser system using optical coupling-feedback is presented for performing chaotic dual-directional secure communication. The performance characterization of chaos masking is investigated theoretically, the equation of synchronization demodulation is deduced and its root is also given. Chaos masking encoding with a rate of 5 Gbit/s and a modulation frequency of 1 GHz, chaos modulation with a rate of 0.2 Gbit/s and a modulation frequency of 0.2 GHz and chaos shifting key with a rate of 0.2 Gbit/s are numerically simulated, separately. The ratio of the signal to the absolute synchronous error and the time for achieving synchronous demodulation are analysed in detail. The results illustrate that the system has stronger privacy and good performances so that it can be applied in chaotic dual-directional high rate secure communications.
(Optical communication systems, multiplexers, and demultiplexers?)
Fund: Project supported
by Education Department of Jiangsu Province of China (Grant No
06KJD140111).
Cite this article:
Yan Sen-Lin(颜森林) Study of dual-directional high rate secure communication systems using chaotic multiple-quantum-well lasers 2007 Chinese Physics 16 3271
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