Signatures reconfigurations over waveguide-gratings-based optical CDMA network codecs

2014 IEEE 5th International Conference on Photonics (ICP) Pub Date : 2014-09-01 DOI:10.1109/ICP.2014.7002368

Jen-Fa Huang, S. Meng, Ying-Chen Lin, A. Huang

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Abstract

To combat with multiple-users interference and malicious eavesdropping, this talk presents a double signatures scrambling scheme over wavelength/time for a cryptographic optical code-division multiple-access (OCDMA) network data transmissions. Optical switches and fiber delay lines are placed with arrayed-waveguide grating (AWG) coder/decoders (codecs) to realize wavelength-spreading and time-hopping. On the transmitter side, user data bits are sliced into spectral chips, coded into pseudo-noise (PN) signature codes, and conducted with different PN-code units of time-delay. In the receiver side, complementary delay lines first reverse the summed spectral chips back into the same time basis, then optical switches follow the associated signatures to turn on-off spectral chips into balanced detector for the final data decoding. By changing signature codes frequently, the eavesdroppers cannot catch on the changing code speed and have little chance to detect the channel waveform to solve the code. With such wavelength/time scrambling scheme, data transmission reliability in OCDMA network can be greatly enhanced.

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基于波导光栅的光CDMA网络编解码器的特征重构

为了对抗多用户干扰和恶意窃听，本文提出了一种波长/时间上的双签名置乱方案，用于加密光码分多址(OCDMA)网络数据传输。在光交换机和光纤延迟线上放置阵列波导光栅编解码器，实现波长扩展和跳时。在发射端，用户数据位被切成频谱芯片，编码成伪噪声(PN)签名码，并以不同的时延PN码单位进行处理。在接收端，互补延迟线首先将求和后的光谱芯片反转回相同的时间基，然后光开关根据相关的特征将光谱芯片转换成平衡检测器，进行最终的数据解码。由于签名码的频繁变化，窃听者无法捕捉到编码速度的变化，也很难检测到信道波形来进行解码。采用这种波长/时间置乱方案，可以大大提高OCDMA网络中数据传输的可靠性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2014 IEEE 5th International Conference on Photonics (ICP)

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