共查询到18条相似文献,搜索用时 65 毫秒
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2012年100G在技术、测试验证和标准化等方面取得重要进展,而100Gbit/s如何引入和应用已成为业界关注的焦点。本文介绍了100G技术和标准最新进展,同时对未来100G应用策略提出了相应建议。 相似文献
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N×100Gbit/sWDM系统已经趋于成熟并逐渐开始引入规模商用。网络带宽的持续快速增长促使骨干光传送网在未来向更高的传输速率演进。本文分析了超100Gbit/s的关键技术,并对未来超100Gbit/s技术发展的路线选择进行了探讨。 相似文献
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本文介绍了波分100G的出现缘由及其市场需求和应用场景,影响其发展的因素,分析了它的最新关键技术和发展趋势。 相似文献
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4G/5G、4K/8K视频和物联网等新型应用和业务不断涌现,驱动带宽需求迅猛增长。超100G 时代的来临,驱动OTN在网络架构、业务适配等方面引入创新技术特征,解决了OTN向更高速率扩展的问题,并优化了以太网业务承载能力,使得网络部署更加灵活和经济。本文通过对超100G OTN协议栈,OTUCn帧结构、比特速率,以太网映射,光传输调制技术的研究,提出超100G OTN技术后续演进方向,对相关技术研究和商用均有一定的意义。 相似文献
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介绍了100G标准进展情况和100G光传输关键技术,包括接口技术、映射技术和线路传输技术,同时也介绍100G设备的商用现状,并对现有的几种10G/40G/100G混传的解决方案进行了比较。 相似文献
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IPTV等视频业务和P2P业务的快速发展,迫切需要传送网络具有更高的容量。目前,40GDWDM技术及设备已经成熟,进入规模商用阶段:2009年以来100G系统设备研发取得较大的进展。运营商积极进行100G系统的试验和测试。预计未来40G/100G设备市场将迅速发展,市场前景广阔。 相似文献
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为了给后续B5G核心网技术研究和标准化提供思路,首先介绍了5G核心网的服务化架构,描述了网络切片、边缘计算等关键技术;然后介绍了3GPP R15核心网标准化成果,提出了5G核心网系统架构,并介绍了R16在固移融合、5G LAN、TSN等方向的核心网标准化进展;其次介绍了ITU IMT-2020核心网标准化进展,包括IMT-2020核心网架构,给出了B5G核心网演进思路分析,提出网络极简化、行业专网增强、网络智能化、uRLLC、mMTC、天地一体化等5G核心网演进方向,并提供了3GPP、ITU的B5G核心网标准化最新进展;最后提出B5G核心网技术方案研究和标准化应覆盖全部的主流技术方向,面向未来做好技术能力储备。 相似文献
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Thomas Toftegaard Nielsen Rune Hylsberg Jacobsen 《Wireless Personal Communications》2005,33(3-4):243-259
Future communication will be based on TCP/IP as common network and transport layers to provide global connectivity to users and applications. IP is used to provide ubiquitous access across different access networks and exploits the benefits of a common connectivity layer while reducing the cost of operation and maintenance of the network. This paper discusses the opportunities for IP in the evolution towards a future broadband, all-IP mobile communication network. In particular, we argue for three opportunities for the future: Interworking access technologies over IP, IP layer transparency, and the ability to manage complexity.Thomas Toftegaard Nielsen was born on September 26th 1970 in Århus, Denmark. He holds a M.Sc.E.E. (‘95) and a Ph.D. (‘99) degree in mobile radio communications from Aalborg University, Center for PersonKommunikation, Denmark. In 1996, he joined the Danish mobile operator Sonofon, where he was involved in capacity and performance evaluations and enhancements of the frequency hopping GSM BSS system as well as advanced wireless network planning. In 1999 he was appointed senior radio project manager, where he became technically responsible for the GPRS mobile data dimensioning/planning. In 2000 he joined Ericsson Telebit A/S as wireless IP software development manager. Currently he is responsible for Ericsson’s IPv6/IPv4 termination dual-stack used in the Ericsson 2G, 2.5G and 3G terminal platforms, in parts of the Ericsson 2G and 3G access network as well as in the Ericsson MSC and MGW of the 3G core network.Rune Hylsberg Jacobsen was born in Copenhagen, Denmark, on October 12th, 1970. He holds a M.Sc. degree in physics and chemistry (1995) and a Ph.D. degree in physics (1997) from University of Aarhus. In 1996 he guested Bell Laboratories, Lucent Technologies, USA. During this period he conducted research in optoelectronic, terahertz-bandwidth radiation applied to material characterization. In 1997 he joined the R&D unit of the Danish telecommunication operator TDC where he worked on fixed broadband access, with emphasis on ADSL deployment and the characterization of transmission properties of the local loop. In 1999 he joined Ericsson Telebit A/S and started to work on European research projects in the 4th and 5th EU framework programs. He was appointed department manager for a software development unit in year 2000. In this position he was in charge of an IP router development for the radio access network and has since worked with aspects of using IP for wireless communication systems. 相似文献
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简单介绍了超100G长距离传输面临的挑战,在此基础上,阐述了超100G长距离传输采用的技术,包括调制技术、多载波复用技术、信号处理DSP技术、前向纠错(FEC)技术、光放大技术、光纤技术等,最后介绍了超100G长距离传输系统的商用化情况。 相似文献