Complimentary code keying of spectral amplitude coding signals in optical buffering with increased capacity

IF 1.9 4区 物理与天体物理 Q3 OPTICS Journal of the European Optical Society-Rapid Publications Pub Date : 2020-06-03 DOI:10.1186/s41476-020-00135-6
Kai-Sheng Chen, Wien Hong
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Abstract

Signal buffering services such as contention resolution and congestion avoidance are essential in optical packet switching networks. In this paper, an optical memory scheme based on spectral amplitude coding (SAC) and complementary code keying (CCK) is proposed to increase the buffer capacity. CCK is applied to packet buffering by selecting an available code set and encoding the payload bits with either an SAC signal or its complementarity. The capacity constraint is effectively released, as the usable codes for queuing packets are twice those for the conventional code-domain buffers. To minimize system costs by reducing the codec number, a shared structure based on an arrayed waveguide grating (AWG), which is capable of processing both the typical and complimentary coded signals simultaneously, is also investigated.

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增加容量的光缓冲中频谱幅度编码信号的互补码键控
在光分组交换网络中,争用解决和拥塞避免等信号缓冲服务是必不可少的。本文提出了一种基于谱幅编码(SAC)和互补码键控(CCK)的光存储方案,以增加缓存容量。CCK通过选择一个可用的代码集并使用SAC信号或其互补信号对有效负载位进行编码来应用于数据包缓冲。由于用于排队数据包的可用代码是传统代码域缓冲区的两倍,因此有效地解除了容量约束。为了通过减少编解码器数量来降低系统成本,本文还研究了一种基于阵列波导光栅(AWG)的共享结构,该结构能够同时处理典型和互补编码信号。
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来源期刊
CiteScore
2.40
自引率
0.00%
发文量
12
审稿时长
5 weeks
期刊介绍: Rapid progress in optics and photonics has broadened its application enormously into many branches, including information and communication technology, security, sensing, bio- and medical sciences, healthcare and chemistry. Recent achievements in other sciences have allowed continual discovery of new natural mysteries and formulation of challenging goals for optics that require further development of modern concepts and running fundamental research. The Journal of the European Optical Society – Rapid Publications (JEOS:RP) aims to tackle all of the aforementioned points in the form of prompt, scientific, high-quality communications that report on the latest findings. It presents emerging technologies and outlining strategic goals in optics and photonics. The journal covers both fundamental and applied topics, including but not limited to: Classical and quantum optics Light/matter interaction Optical communication Micro- and nanooptics Nonlinear optical phenomena Optical materials Optical metrology Optical spectroscopy Colour research Nano and metamaterials Modern photonics technology Optical engineering, design and instrumentation Optical applications in bio-physics and medicine Interdisciplinary fields using photonics, such as in energy, climate change and cultural heritage The journal aims to provide readers with recent and important achievements in optics/photonics and, as its name suggests, it strives for the shortest possible publication time.
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