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WDM光网络中OXC结构对带内串扰积累的影响 总被引:1,自引:1,他引:0
串扰是波分复用(WDM)光网络中光交叉连接(OXC)投入实用的最大障碍。理论分析了基于扩展Benes(DB)结构和改进扩展Benes(GMDB)结构的3种典型OXC节点结构中的带内串扰,并数值模拟了基于两种结构的OXC节点中带内串扰的积累特性。结果表明,基于DB结构和GMDB结构的OXC节点可以完全消除低于二阶的各类串扰。发现基于GMDB结构的OXC节点能大大减少带内串扰的积累,与基于DB结构的OXC节点相比,基于GMDB结构的OXC节点对光开关串扰系数的要求放宽了5dB,说明OXC节点结构的选择对消除串扰尤为重要。 相似文献
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本文介绍了光交叉连接(OXC)节点在光网络中所处的位置,分析了透明OXC节点和非透明OXC节点两种结构的构成方式.同时分析了OXC节点的串扰性能和利用GMPLS协议实现OXC节点的控制方式. 相似文献
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分析了光网络中大功率信号引起的带内串扰攻击,攻击信号功率和光开光串扰系数是带内串扰攻击对用户信号质量产生破坏影响的主要因素.在VPI仿真软件中搭建实验系统,以误码率为评价指标,定量研究了带内串扰攻击对用户信号质量的影响及其攻击传播能力.结果表明,当光开关串扰系数为-20 dB、初始攻击信号功率高于用户信号功率20 dB以上时,在OXC1处,经过第一级和第二级光开关的用户信号会受到攻击影响,经过第三级光开关的用户信号几乎不受攻击影响.带内串扰攻击具有一定的攻击传播能力,当初始攻击信号功率高于用户信号功率27dB、光开光串扰系数为-20 dB时,初始攻击信号的攻击能力可传播至OXC3,同时,二阶攻击信号基本不具备攻击传播能力. 相似文献
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利用MEMS光开关来构建光交叉连接OXC目前成为一个研究热点。本文叙述了利用MEMS光开关构建光交叉连接的系统构架,提出了相应的硬件平台设计方案,并对实际的OXC交换板做了性能测试。从交换时间和插入损耗这两个指标来看,该OXC完全可以满足一般的交换速度和交换容量需求。同时,在实际制作的OXC交换板的基础上,通过加入扩展光器件,该OXC板可以扩展为带波长变换的光节点,可以实现ASON自动交换光网络的交换节点功能。 相似文献
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针对具有波长转换功能的节点共享型和链路共享型光交叉连接(OXC)节点,分析了相干串扰和非相干串扰引起的功率代价并进行了仿真计算.结果表明,相干串扰引起的功率代价远远大于非相干串扰,尤其当时间延迟小于激光器的相干时间并小于码型周期时,串扰引起的功率代价最大.为达到一定的系统性能,分析了WDM光网络对器件的要求,并比较了波长转换器的加入对OXC节点串扰的影响,结果发现,加入波长转换器后,系统的功率代价有一定的改善,相同条件下波长转换器的加入对器件的隔离度要求降低2 dB. 相似文献
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光交叉连接器件(OXC)是实现WDM全光网络的关键器件,但由于其自身的链路和信号相互作用,会产生严重的串扰问题,从而限制了OXC性能的充分发挥.我们通过理论推导、数值计算和统计分析等方法对典型的OXC拓扑结构中的串扰进行了详细的定性和定量分析,并对OXC的扩展性和级联性进行了讨论. 相似文献
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本文提出了一种新的WDM光网络功率管理方案,即同时考虑同频串扰和自发辐射噪声的总功率。给出了方案的数学模型,并进行了仿真计算。结果表明,同频串扰对WDM光网络的规模和光信号的质量有着重要的影响。对于使用机械光开关的WDM关网,串扰对系统的影响程度主要取决于解复用器的隔离度。对串扰较小的网络,提高输出EDFA的增益和监测点光功率设定值会提高光信号质量。 相似文献
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光开关是较为重要的光无源器件,在光网络系统中可对光信号进行选择性开关操作。随着光信号传送业务量的快速增长,以及接入网和高速数据网大容量高速交换的需求,组建全光传输网络成为光通信技术发展的必然趋势。光交叉连接(OXC)技术是全光网络关键技术之一,OXC系统作为全光网络不可缺少的节点设备,可以使全光网络中信息传输的光信号进行直接交换和交叉连接,它与至今为止 相似文献
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Noise and crosstalk are two important limiting factors in optical networks with optical cross-connects (OXC's). If reshaping wavelength converters are used in the OXC nodes, noise and crosstalk are transformed into timing jitter which accumulates in the network and limits the performance. A method to evaluate the influence of jitter caused by noise and crosstalk in cascaded OXC's is presented and applied to three different OXC architectures, taking both coherent and incoherent crosstalk into account. In the analyzed architectures, the losses in the OXC and the coherent crosstalk is found to be the most important limitations 相似文献
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AnalysisofCrostalkInducedbyOpticalCros-ConnectioninMultiwavelengthNetworksShenXiaoandYePeida(BeijingUniversityofPostsandTelec... 相似文献
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Shiragaki T. Henmi N. Kato T. Fujiwara M. Misono M. Shiozawa T. Suzuki S. 《Selected Areas in Communications, IEEE Journal on》1998,16(7):1179-1189
The optical cross-connect (OXC) system described in this paper increases the operation flexibility and reliability of the trunk-line optical networks used for data communication. It features an OXC node comprised of a photonic switching network and a conventional electric switching network that are connected hierarchically. The operation and management scheme proposed for this OXC system uses the concept of an optical path and an optical section. The OXC system allows hitless network reconfiguration by switching the photonic switches gradually and without interference effects. An experimental OXC network showed that a broken optical path is restored, by rerouting, within 50 ms. Experiments using a LiNbO3 8×8 photonic switch matrix also showed that the OXC system provides photonic hitless switching. These results confirm the feasibility of flexibly reconfigurable and fast-restorable OXC systems 相似文献
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Khandker Md. Mamun-ur-Rashid Jiang Xiaohong Shen Hong Horiguchi Susumu 《Photonic Network Communications》2001,3(4):393-400
With the current technology, all-optical networks require nonblocking switch architectures for building optical cross-connects. The crossbar switch has been widely used for building an optical cross-connect due to its simple routing algorithm and short path setup time. It is known that the crossbar suffers from huge signal loss and crosstalk. The Clos network uses a crossbar as building block and reduces switch complexity, but it does not significantly reduce signal loss and crosstalk. Although the Spanke's network eliminates the crosstalk problem, it increases the number of switching elements required considerably (to 2N
2 - 2N). In this paper, we propose a new architecture for building nonblocking optical switching networks that has much lower signal loss and crosstalk than the crossbar without increasing switch complexity. Using this architecture we can build non-squared nonblocking networks that can be used as building block for the Clos network. The resulting Clos network will then have not only lower signal loss and crosstalk but also a lower switch complexity. 相似文献