超高速奈奎斯特时分复用传输关键技术研究

项目名称： 超高速奈奎斯特时分复用传输关键技术研究

项目编号： No.61475022

项目类型： 面上项目

立项/批准年度： 2015

项目学科： 无线电电子学、电信技术

项目作者： 李岩

作者单位： 北京邮电大学

项目金额： 87万元

中文摘要： 随着骨干网业务不断增加，现有光纤通信系统容量将在2025年前后达到饱和，研究和发展突破性的大容量、高谱效率光纤通信系统及其关键技术具有现实迫切性。奈奎斯特时分复用技术是最新提出的一种单信道光纤传输技术，与奈奎斯特波分复用技术相比，不需要频域保护带宽；而与正交频分复用技术相比，不需要时域保护间隔；能够进一步提高系统效率，成为现阶段满足光纤通信系统大容量、高谱效率要求的新型重要可行方式。本项目重点对超高速单信道奈奎斯特时分复用传输系统中的超快奈奎斯特脉冲产生机理和时分复用奈奎斯特信号的接收机制开展研究。攻克超快、低噪声、高稳定度的奈奎斯特脉冲产生和无码间干扰的超高速时分复用奈奎斯特信号接收关键技术，预计完成一套速率大于5 Tbit/s的单信道奈奎斯特时分复用系统传输验证实验，为实现超高速奈奎斯特时分复用传输系统奠定理论与技术基础。

中文关键词： 奈奎斯特时分复用；超高速光传输；奈奎斯特脉冲；匹配相干接收

英文摘要： Spurred by the ever-increasing internet bandwidth requirements, it is expected that the capacity of existing optical fiber telecommunication systems will no longer meet the requirements of backbone networks around 2025. It is of great significance and urgency to develop new optical communication systems and their key techniques with large capacity and high spectrum efficiency. Nyquist optical time-division multiplexed (Nyquist-OTDM) technique is proposed as a brand new single-channel optical transmission technology. It is more spectrally efficient because no guard bandwidth is required when compared with the widely studied Nyquist-WDM technology; and it is more time efficient because no guard interval is needed when compared with the well-known OFDM technology. Thus Nyquist-OTDM technology is anticipated to further increase the efficiency of existing optical communication systems in terms of large capacity and high spectrum efficiency. This project is expected to study and research on the generation of ultra-fast Nyquist pulse train and the reception of Nyquist-OTDM signal in ultra-high speed Nyquist-OTDM transmission systems. Nyquist pulse train with ultra-narrow pulse-width, low-noise and high stability as well as ISI-free reception of Nyquist-OTDM signal will be the targets and subjects of this project. This project is also expected to achieve and carry out a series of single-channel 5 Tbit/s Nyquist-OTDM transmission experiments based on the above mentioned key technologies, providing theoretical and technical basis for future ultra-high speed Nyquist-OTDM systems.

英文关键词： Nyquist-OTDM;Ultra-high speed optical transmission;Nyquist pulse;matched coherent detection