System Design Tool for High Bit Rate Terrestrial Transmission Systems With Coherent Detection

Q1 Engineering Bell Labs Technical Journal Pub Date : 2013-11-27 DOI:10.1002/bltj.21637

Bruno Lavigne, Mathieu Lefrançois, Elodie Balmefrezol, Christine Bresson, Francesco Vacondio, Jean-Christophe Antona, Emmanuel Seve, Olivier Rival

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引用次数: 21

Abstract

Coherent detection offers the ability to compensate for linear transmission impairments such as fiber chromatic dispersion and polarization-mode dispersion in the digital domain, thereby enabling dispersion-uncompensated optical transmission for high performance and high cost effectiveness. In dispersion-uncompensated transmission systems, the statistics of optical nonlinearity induced distortions have been proven to be essentially Gaussian-distributed, and new physical models have emerged showing profound differences with respect to legacy systems based on direct detection. From such differences stems the need to adapt the design tool to capture these new propagation properties. In that respect, we propose a model for performance prediction, which is used to derive a simple yet effective feasibility parameter to be embedded in the design tool. The feasibility parameter is experimentally validated with real time product transponders, and realistic system configurations: a precision of ±0.5 dB is achieved for 40 Gb/s, 100 Gb/s and 400 Gb/s coherent channels, which represents an improvement of more than 3 dB over the design tool using the nonlinear phase shift as the criterion. ©2013 Alcatel-Lucent.

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具有相干检测的高比特率地面传输系统设计工具

相干检测提供了补偿线性传输缺陷的能力，例如光纤色散和数字域的偏振模色散，从而使色散无补偿的光传输具有高性能和高成本效益。在色散无补偿传输系统中，光学非线性引起的畸变的统计数据已被证明本质上是高斯分布的，并且新的物理模型已经出现，与基于直接检测的传统系统有很大的不同。由于这些差异，需要调整设计工具以捕获这些新的传播属性。在这方面，我们提出了一个性能预测模型，该模型用于推导一个简单而有效的可行性参数，并嵌入到设计工具中。用实时产品应答器和实际系统配置对可行性参数进行了实验验证:在40 Gb/s、100 Gb/s和400 Gb/s相干信道下，精度达到±0.5 dB，比以非线性相移为标准的设计工具提高了3 dB以上。©2013年阿尔卡特-朗讯(alcatel - lucent)。

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来源期刊

Bell Labs Technical Journal 工程技术-电信学

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6-12 weeks

期刊介绍： The Bell Labs Technical Journal (BLTJ) highlights key research and development activities across Alcatel-Lucent — within Bell Labs, within the company’s CTO organizations, and in cross-functional projects and initiatives. It publishes papers and letters by Alcatel-Lucent researchers, scientists, and engineers and co-authors affiliated with universities, government and corporate research labs, and customer companies. Its aim is to promote progress in communications fields worldwide; Bell Labs innovations enable Alcatel-Lucent to deliver leading products, solutions, and services that meet customers’ mission critical needs.

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