Secure fiber-optic communication system based on Internet-accessible multipath transmission of ciphertext fragments

Secure fiber-optic communication system based on Internet-accessible multipath transmission of ciphertext fragments

A secure fiber-optic communication system based on Internet-accessible multipath transmission of ciphertext fragment (MTCF) technology is proposed and demonstrated in this paper. By performing algorithm encryption on the transmitted data before randomly assigning them to multiple channels correspond...

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Veröffentlicht in:Optics express 2021-08, Vol.29 (16), p.24919-24927
Hauptverfasser: Jin, Ya, Qi, Yichao, Chen, Yinfang, Chen, Wei, Li, Wei, Zhu, Ninghua
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container_end_page 24927
container_issue 16
container_start_page 24919
container_title Optics express
container_volume 29
creator Jin, Ya
Qi, Yichao
Chen, Yinfang
Chen, Wei
Li, Wei
Zhu, Ninghua
description A secure fiber-optic communication system based on Internet-accessible multipath transmission of ciphertext fragment (MTCF) technology is proposed and demonstrated in this paper. By performing algorithm encryption on the transmitted data before randomly assigning them to multiple channels corresponding to different wavelengths or Internet protocols (IPs), the secure and long-distance transmission can be realized. A field trial experiment over 125 km between Beijing and Xiongan has been successfully undertaken, and the results show that the maximum throughput can reach 60 Mb/s, which demonstrates the feasibility of the scheme. We also established a theoretical model to analyze the security performance of the proposed system. As far as we know, this is the first time that MTCF, an optical physical layer and application layer integrated security technology, has been enjoyed the capacity to access the public network, which provides an exciting opportunity to advance our knowledge of long-distance secure communication.
doi_str_mv 10.1364/OE.430035
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title Secure fiber-optic communication system based on Internet-accessible multipath transmission of ciphertext fragments
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