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光突发交换(OBS)技术是下一代全光分组交换技术的典型代表.本文主要研究并分析了基于固定长度光突发数据的OBS网络平均时延、突发数据数量等性能,给出了各参量随信道负荷量变化时的变化规律. 相似文献
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光突发交换(OBS)网络是迈向全光分组交换网络的典型代表.文章主要研究了基于可变长光突发数据分组的OBS网络性能,给出并分析了不同负荷量大小的情况下网络中的平均突发数据分组数量等参数.在设定网络速率为10和40 Gbit/s的情况下,给出了网络平均时延、突发数据分组负荷量及突发数据分组长度之间的关系.所得结果可作为对OBS网络理论研究的一种补充. 相似文献
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光突发交换(OBS)是IP over WDM核心网络采用的交换技术。在OBS网络中,送往同一边缘节点的IP分组汇聚成传输和交换的基本单元———数据突发(DB),DB丢弃会导致大量IP分组丢失,显著影响传输层的性能。文中分析OBS网络的参数对传输控制协议(TCP)吞吐量和时延的影响。仿真结果表明,DB丢包率越高,TCP性能越差。在低丢包率情况下,随着DB长度的增加,TCP吞吐量和端到端时延明显增加,高丢包率情况下则不明显;随着汇聚周期的增加,TCP吞吐量逐渐下降,端到端时延逐渐增加。 相似文献
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光突发交换(OBS)技术集成光电路交换和光分组交换的优势,能满足现有大容量、高速率的多媒体信息交换与传输,将成为下一代光IP骨干网的核心技术。本文详细论述了OBS网络中的关键技术———突发分组的组装技术的各种策略与实现方式,指出具有良好QoS保证又可降低可操控性的突发组装策略将成为最佳选择。 相似文献
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光突发交换网络(OBS)是一种IP over WDM的光交换技术,能很好地支持突发业务。OBS系统采用单向波长资源预留方式为突发数据分组预留前向数据波长通道,这样提高了传输交换效率、减少了建链时间,但同时因路由连接的非确定性而引起突发分组的易丢失性。所以QoS戍为OBS网络中的最亟需解决的问题。对OBS网络所采取的多种改善其QoS的策略进行了研究。 相似文献
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采用动态波长分插复用器的光突发交换环网中的控制协议研究 总被引:1,自引:0,他引:1
提出了一种光突发交换(OBS)环网控制协议——延迟光突发固定周期(DBFP)协议。它采用动态波长分插复用器(WADM)。即采用波长可调发送可调接收(TTTR)机制.通过提前的光突发控制分组(BCP).为光突发数据分组(BDP)预留资源,并利用固定长度的光纤延迟线(FDL)将突发数据包延迟同定的时间,以便等待所有已经预留的突发数据包发送完毕,从而完全避免突发数据包冲突问题。仿真结果表明。延迟光突发固定周期协议能完全避免突发数据包冲突。同时有效地实现了波长统计复用、按需分配和空间重用,波长重用效率高达160%。从而提高链路利用率.特别适合于突发性的业务;并且延迟光突发固定周期协议所引入的时延为1ms左右.对业务的影响不大。 相似文献
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Optical switching technology can be categorized into optical circuit switching (OCS), optical packet switching (OPS) and optical burst switching (OBS). OCS is suitable for large amounts of data transmission; however, the channel utilization is inefficient when the traffic flows are intermittent. OPS can be easily adapted to any higher layer and is suitable for bursty traffic, but it requires a highly complex technology and optical buffer. The new switching paradigm, OBS, can provide higher bandwidth utilization and meanwhile avoid the complexity in OPS technology.In this paper, we investigate how the quality of service (QoS) can be guaranteed and reliable transmission can be supported in the OBS-based Internet backbone. We propose the adjustable-time-counter-based (ATCB) burst assembly and the non-real time packet retransmission mechanisms and apply them in the ingress router of the OBS Internet backbone to guarantee the quality of real time applications and lossless requirement of non-real time services. Moreover, traffic shaped is performed for real time packets in the egress router so that the real time property is preserved with a low jitter. Simulation results show that the burst blocking probability using the ATCB burst assembly is improved, compared with the time-counter-based (TCB) and burst-length-threshold-based (BLTB) mechanisms. The delay, loss and jitter of real time service conform to the QoS requirement. Meanwhile, the delay of non-real time service also falls in the acceptable range. 相似文献
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刘祺 《电信工程技术与标准化》2004,(6):50-53
光突发交换拥有光电路交换和光分组交换两种方式的主要特征,是未来光网络的一种有希望的实现形式,本文对wDM光突发交换网络的实现做了简要的介绍,主要从wDM光突发交换网络的生存性出发对相关问题进行了分析研究,并提出了相应的解决方案. 相似文献
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光互联网络的典型特征是高速宽带、灵活可控、资源高效利用。光突发交换(OBS)结合了光电路交换和光分组交换的优点,又克服了二者的不足,将成为下一代光互联网的一种典型的核心支撑技术。文章分析和讨论了OBS网络增强型通用多协议标记交换(GMPLS)控制面技术、多粒度光交换技术,以及光网络节点结构模型、波长资源预留与调度机制、竞争解决机制、OBS网络故障监测技术等关键技术;还分析和讨论了下一代光互联网络的光虚拟专用网(OVPN)关键技术问题。文章指出为了增强目前光网络在资源分配、服务发现、服务质量保障等方面缺乏与上层IP网络的协同支持,需要对网络控制面体系结构、流量工程和业务管理等方面加强研究。 相似文献
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Optical Burst Switching (OBS) has been proposed as a promising switching technology for the next generation of optical transport networks. In this paper, we address the issue of how to provide proportional differentiated services in OBS networks. Firstly, a Dynamic Wavelength Selection (DWS) scheme is introduced to provide proportional differentiated services in bufferless OBS networks by dynamically assigning more and longer periods of wavelengths to high priority classes. This scheme can also utilize wavelengths efficiently because the wavelengths are shared among different classes. Next, a Delayed Burst Assignment (DBA) scheme is introduced, by which bursts of the high priority class are given a higher probability for reserving wavelengths by scheduling the bursts of the low priority class with a delay to provide quality of service (QoS) in OBS networks. The integration of these two schemes provides proportional differentiated services and improves the burst loss performance by giving the burst head packet (BHP) two opportunities of scheduling its data burst (DB). 相似文献
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光突发交换中的突发包组装技术研究 总被引:3,自引:0,他引:3
光突发交换是近几年出现的一种很有前途的光交换技术,比电路交换灵活,带宽利用率高,又比光分组交换易于实现,突发包的组装是光突发交换的关键技术,在很大程度上影响到光突发交换网络的性能。文中介绍了光突发包的格式,描述了交换网络中突发包组装所需的层次结构和功能结构,并给出了一种典型的生成算法。最后,对选择突发包组装时间应考虑的各种因素进行了系统的分析。 相似文献
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Secure Optical Burst Switching: Framework and Research Directions [Topics in Optical Communications]
Optical burst switching has been positioned as a viable means of implementing optical communication efficiently. This article identifies potential threats to security in OBS networks. To alleviate the security threats in OBS networks, a secure Optical Burst Switching (S-OBS) framework is proposed. The S-OBS framework provides two levels of security measures: authentication of burst headers and confidentiality of data bursts. Candidate solutions in each category are examined, and research directions are presented. 相似文献
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Optical Burst Switching (OBS) combines the benefits of Optical Packet Switching and Optical Circuit Switching technologies to provide an efficient, yet cost effective, method for data transmission in an all-optical, bufferless, core network. While most studies on OBS has concentrated on the core OBS network, we contribute new studies for the buffer requirement of an OBS edge node. The buffer usage for OBS systems only arises in the edge nodes since they contain an array of assemblers which combines electronic data with a common destination into an OBS burst stream for transmission in an all-optical bufferless core network. Specifically, we present two analytical results for buffer usage in an OBS edge node: one for Poisson traffic and the other for self-similar traffic input. The results show that the aggregated traffic from many assemblers inherits the characteristics of the source input traffic. This means that the output traffic approaches Poisson if the input traffic is Poisson, and the output traffic remains self-similar if the input is self-similar. These results lead to the following important design issues when dimensioning buffer requirements in an OBS edge node: if the traffic input is Poisson, the M/G/m model is the model to use for obtaining the upper bound on buffer usage in an OBS edge node; and for the case of self-similar traffic, Brichet’s method can be used to provide the upper and lower bound. 相似文献