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A wavelength division multiplexing bidirectional transmission system based on delayed optical feedback chaotic semiconductor laser

A wavelength division multiplexing and two-way transmission technology, applied in the field of optical information, can solve problems such as long-distance transmission that cannot effectively guarantee information security and large capacity

Active Publication Date: 2020-05-22
湖北盛联光电通信有限公司
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Problems solved by technology

In the transmission process of the existing technology, there are still defects in information confidentiality and long-distance large-capacity transmission, which cannot effectively guarantee information security and realize large-capacity long-distance transmission.

Method used

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  • A wavelength division multiplexing bidirectional transmission system based on delayed optical feedback chaotic semiconductor laser
  • A wavelength division multiplexing bidirectional transmission system based on delayed optical feedback chaotic semiconductor laser
  • A wavelength division multiplexing bidirectional transmission system based on delayed optical feedback chaotic semiconductor laser

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Embodiment Construction

[0024] The present invention will be further described below in conjunction with the accompanying drawings, so that the technical solution of the present invention is clearer and clearer.

[0025] Such as figure 1As shown, this embodiment relates to a wavelength division multiplexing bidirectional transmission system with delayed optical feedback chaotic semiconductor lasers, including a first reflector 1-1, a first wave splitter 2-1, and a first semiconductor laser 3-1 , the second semiconductor laser 3-2, the third semiconductor laser 3-3, the fourth semiconductor laser 3-4 and the fifth laser 3-5. A first signal modulator 4-1, a second signal modulator 4-2, a third signal modulator 4-3 and a fourth signal modulator 4-4. The first partially transparent mirror 5-1, the second partially transparent mirror 5-2, the third partially transparent mirror 5-3, and the fourth partially transparent mirror 5-4. A first isolator 6-1, a second isolator 6-2, a third isolator 6-3 and a fo...

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Abstract

The invention discloses a wavelength division multiplexing bidirectional transmission system based on a delayed optical feedback chaotic semiconductor laser. The system comprises a first reflector, afirst semiconductor laser, a first wave separator, a first optical chaotic signal link, a first wavelength division multiplexer, a first optical fiber, a second wavelength division multiplexer and a second optical chaotic signal link which are sequentially connected, wherein the second optical chaotic signal link is connected with the first wave separator, the first optical chaotic signal link andthe second optical chaotic signal link are used for transmitting optical chaotic signals, any one of the first optical chaotic signal link and the second optical chaotic signal link comprises a sending end, and the other one comprises a receiving end; and the first wavelength division multiplexer or the second wavelength division multiplexer is used for coupling an optical chaotic signal or re-dividing the optical chaotic signal into different wavelength chaotic signals. The system solves the problems of information confidentiality and long-distance large-capacity communication in the chaoticcommunication process.

Description

technical field [0001] The invention belongs to the field of optical information technology, and in particular relates to a wavelength division multiplexing bidirectional secure communication system based on delayed optical feedback semiconductor lasers. Background technique [0002] With the continuous development of social economy, traditional modern secure communication technology can no longer meet people's requirements for information security, and the capacity of information transmission based on traditional information security technology can no longer meet people's needs, so information security and information transmission capacity It has become a hot spot of people's attention. Due to the sensitive dependence of the chaotic system on the initial conditions, the chaotic signal has long-term unpredictability and interception ability; at the same time, the chaotic system itself is deterministic, completely determined by the nonlinear system equations, parameters and i...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04J14/02H04L9/00G02B6/293
Inventor 李齐良包小彬吴婷胡淼周雪芳曾然杨淑娜唐向宏杨国伟毕美华卢旸
Owner 湖北盛联光电通信有限公司
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