Next generation networks - design for reliability

DRCN 2005). Proceedings.5th International Workshop on Design of Reliable Communication Networks, 2005. Pub Date : 2005-12-27 DOI:10.1109/DRCN.2005.1563906

P. Hargrave

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Abstract

The architecture of Next Generation Networks necessitates the adoption of new approaches to ensuring the reliability of these networks and the services they offer. The more distributed nature of network elements, as compared with legacy networks, can be advantageously exploited through the use of techniques such as continuous fault monitoring and automatic rerouting, leading to new approaches to recovery following equipment failure. NGNs have inherently different behaviours under overload and therefore also require new approaches to ensuring Quality and Grade of Service through, for example, appropriately managed packet classification and handling. Coupled with sophisticated server redundancy mechanisms and a layered approach to security, these techniques can be used to complement each other and ensure that NGNs can provide truly 'ReHlable Networks for Reliable Services'. I. NEXT GENERATION NETWORKS The accelerating deployment of Next Generation Networks (NGNs) represents a tipping point in the way communications services are delivered. As shown in Figure 1, a defining characteristic of such networks is that they are based around optical cores that carry Internet Protocol (IP) packets and provide connectivity independent of service. Services are no longer inextricably linked with separate infrastructures. Instead, they are the provided via computing servers linked to these common cores. NGNs also provide services that are independent of the access method that is used. Whether such access be fixed, mobile or via hotspots, it is simply the means by which end users connect to the packet core networks, and thereby access the servers and communicate with each other. The major service providers are now deploying their own distinct NGNs with carrier class capabilities. NGNs offer the potential of substantial cost savings to operators. They enable the delivery of innovative new services, with the potential for far greater control and personalisation by end users. Service innovation can be at the network edge, and therefore beyond the control of the network

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下一代网络——可靠性设计

下一代网络的架构要求采用新的方法来确保这些网络及其提供的服务的可靠性。与传统网络相比，网络元素的分布式特性可以通过使用诸如连续故障监测和自动重新路由等技术来有利地利用，从而导致设备故障后恢复的新方法。ngn在过载情况下具有固有的不同行为，因此也需要新的方法来确保服务质量和等级，例如，通过适当管理数据包分类和处理。再加上复杂的服务器冗余机制和分层的安全方法，这些技术可以相互补充，确保下一代网络能够提供真正的“可靠服务的可靠网络”。一、下一代网络下一代网络(ngn)的加速部署代表着通信服务交付方式的一个转折点。如图1所示，这种网络的一个决定性特征是它们基于光核，这些光核携带Internet Protocol (IP)数据包，并提供独立于服务的连接。服务不再与独立的基础设施紧密相连。相反，它们是通过连接到这些公共核心的计算服务器提供的。ngn还提供与接入方式无关的业务。无论这种接入是固定的、移动的还是通过热点，它都只是终端用户连接到分组核心网，从而访问服务器并相互通信的手段。各大服务提供商目前都在部署各自具有运营商级能力的独特下一代网络。下一代网络为运营商提供了大量节省成本的潜力。它们能够提供创新的新服务，具有最终用户更大的控制和个性化的潜力。服务创新可以处于网络边缘，因此不受网络的控制

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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DRCN 2005). Proceedings.5th International Workshop on Design of Reliable Communication Networks, 2005.

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