Telcos across the globe are gearing up for the 5th Wave of Networks. Historically, each generation of wireless network evolution: 2G, 3G, 4G were primarily driven by significant improvements in RAN (Radio Access Network) technology and each generation of wireless networks successfully delivered voice, data and video services to mass markets. But the 5th wave of networks will have to be much more than just incremental improvements in Radio to successfully meet the gruelling demands of future.<\/p>

Growing video consumption and new applications will continue to drive exponential data traffic growth on mobile networks; video content itself is getting heavier with 4K video. By 2021, mobile video data consumption is set to increase by 870% from 2016.Further AR\/VR devices will have a massive multiplier effect on the total data traffic volume and will put much higher \u2018throughput\u2019 demands on the network of the future. Massive IoT will disproportionately push the network limits on total number of \u2018connections\u2019 as the industry embarks to connect 20B devices and more.And new applications like driverless cars and self-flying drones will demand much lower network \u2018latency\u2019. Network of the future has to meet these unprecedented demands on: throughput, connections and latency.<\/p>

Some of you might recall the massive challenges CSP networks faced in the early days when smartphones were launched. Network engineers on some days were dealing with \u2018data tsunamis\u2019 as smartphones pushed the network\u2019s limits on data throughput. And on others days the same network engineers would be dealing with \u2018signalling storms\u2019, when un-optimized apps were creating havocs on network\u2019s signalling traffic. It is worth noting that networks experienced all these challenges with just one type of \u2018thing\u2019: smartphones. We can foresee what\u2019s to about come with IoT, when networks will have to deal with massively varying use-cases from massively varying devices. Massive IoT further exacerbates security threats, last year\u2019s Mirai DDoS botnet attack clearly exemplifies the threats network of the future will face. It will no longer be viable to profitably operate and secure the network of future with traditional tools and processes. Hyper-automation is the only way forward to meet the hyper-demands of IoT. Big Data, AI, Machine Learning, Analytics will all play a key role in driving hyper-automation of the network of future.<\/p>

Furthermore, for service providers to seize the emerging opportunities networks will have to deliver more-for-less. According to GSMA, from 2016 \u2013 2020 data traffic on mobile networks is projected to grow at 47% CAGR, while revenue is projected to grow just at 2.1% CAGR during the same period. The math couldn\u2019t be simpler; to keep their networks sustainably profitable, service providers have to find solutions that aggressively bend their cost curve. To achieve this, network of the future requires: new architecture. Traditional network appliance models no longer profitably scales to meet the future needs, linear-scale must give way to hyper-scale. Service providers need an architecture that enable networks to be elastic, programmable and agile. Software Defined Networking (SDN) and Network Functions Virtualization (NFV) are the forces that are shaping up the architecture for network of the future. Web-scalers have already proven building hyper-scale software-defined infrastructure leveraging COTS platform and merchant silicon. SDN\/NFV promise to do just that for operators; driving optimal resource utilization and enabling them to innovate their networks at the speed-of-cloud.<\/p>

We strongly believe the three key pillars of the 5th wave of networks are going to be:<\/p>

• New Radio (NR),<\/li>
• New Architecture (SDN\/NFV), and<\/li>
• Hyper-Automation (Big Data, AI, ML)<\/li> <\/ul>

  Spectrum is the lifeblood of a mobile network. To dramatically increase network throughput and significantly lower latency, network of the future requires new access. 5G NR is shaping up to address these requirements by significantly improving spectral efficiency and by leveraging higher frequency bands (>6GHz), including mmWave, where much higher channel bandwidths are available. Network of the future will leverage both licensed and unlicensed spectrum, as well as new shared spectrum options like: CBRS 3.5GHz in the U.S. Numerous 5G NR trials are already underway as service providers mature RF technology for 28GHz, 31GHz and even 60GHz mmWave. We are also witnessing dis-aggregation of the base station itself with vRAN (virtualized RAN). vRAN will dramatically lower the cost of the RAN equipment. RRH (Remote Radio Heads) are being decoupled from BBU (Baseband Unit), and BBU itself is being virtualized. And that brings me to NFV.<\/p>

  <\/p>

  SDN and NFV are laying the foundation of the network of the future by adapting the Cloud technologies for the carrier networks. We are already witnessing the growing importance open-source-software will play in the network of the future. The industry is humming with numerous open source projects including: OpenStack, OpenDayLight, ONOS, ONAP, OSM, CORD and more. The software architecture itself is evolving to microservices, as service providers demand solutions to be cloud native. Old stovepipe OSS stacks are starting to give way to new-age Management and Orchestration (MANO) solutions that will bring unprecedented agility, enabling service provider to quickly design, realize and offer new services. New architecture will enable service providers to achieve closed-loop-control, such that the network elastically scales up and down depending on varying traffic conditions. Finally, the new architecture will enable network slicing, enabling service providers to programmatically create network slices catering to varying demands of various IoT use cases.<\/p>

  <\/p>

  Pairing vast amounts of network data collected in data lakes with the vast amount of compute power now creates the potential to unleash the power of machine learning and AI algorithms to achieve unprecedented levels of hyper-automation. Future networks will be self-aware and self-optimizing. Leveraging predictive analytics these networks will achieve optimal asset utilization and near real-time auto-scaling. They will be able to predict faults and self-heal. Hyper-automation will pave the way for self-defending networks, that will be able to detect traffic anomalies and proactively prevent against security attacks like the recent Mirai massive DDoS Botnet attack.<\/p>

  <\/p>

  To conclude, the future of the communication industry looks very bright as the demand for data continues to grow. IoT presents unprecedented growth opportunity for service providers. To successfully seize these growth opportunities, the service providers must transform their networks to achieve unprecedented levels of agility, elasticity and automation. The 5th wave of networks will be go much beyond the Radio innovation. New Radio (NR), New Architecture (SDN\/NFV) and Hyper Automation (AI\/ML) will be the key pillars for the network of the future. It is one of the most exciting times to be in the communication industry with so much to innovate, so much to transform and so much to grow.<\/p>

  <\/p>

  <\/a><\/p>","blog_img":"","posted_date":"2017-08-07 16:09:13","modified_date":"2019-09-09 12:51:39","featured":"0","status":"Y","seo_title":"The 5th wave of networks","seo_url":"the-5th-wave-of-networks","url":"\/\/www.iser-br.com\/tele-talk\/the-5th-wave-of-networks\/2531","url_seo":"the-5th-wave-of-networks"}">

  全球的电信公司都在为第五次网络浪潮做准备。从历史上看，每一代无线网络的演变:2G、3G、4G主要是由RAN(无线接入网)技术的显著改进所驱动，每一代无线网络都成功地向大众市场提供了语音、数据和视频服务。但是第五次网络浪潮将不仅仅是无线电的渐进式改进，才能成功地满足未来的苛刻要求。

  不断增长的视频消费和新应用程序将继续推动移动网络数据流量的指数级增长;随着4K视频的出现，视频内容本身也变得越来越重。到2021年，移动视频数据消费将比2016年增长870%。进一步的AR/VR设备将对数据流量总量产生巨大的乘数效应，并将对未来的网络提出更高的“吞吐量”要求。随着行业开始连接20B台或更多设备，大规模物联网将不成比例地推动网络“连接”总数的限制。而像无人驾驶汽车和自动飞行无人机这样的新应用将要求更低的网络“延迟”。未来的网络必须满足这些前所未有的需求:吞吐量、连接和延迟。

  有些人可能还记得在智能手机推出的早期，CSP网络面临的巨大挑战。有些时候，网络工程师正在应对“数据海啸”，因为智能手机突破了网络数据吞吐量的极限。而在其他日子里，同样的网络工程师会处理“信号风暴”，当未优化的应用程序对网络的信号流量造成严重破坏时。值得注意的是，网络仅凭借一种“东西”经历了所有这些挑战:智能手机。我们可以预见物联网会发生什么，届时网络将不得不处理来自大量不同设备的大量不同用例。大规模物联网进一步加剧了安全威胁，去年的Mirai DDoS僵尸网络攻击清楚地说明了未来网络将面临的威胁。用传统的工具和流程来盈利运营和保护未来的网络将不再可行。超自动化是满足物联网超需求的唯一出路。大数据、人工智能、机器学习、分析都将在推动未来网络的超自动化方面发挥关键作用。

  此外，对于服务提供商来说，要抓住新兴的机遇，网络必须以更少的成本提供更多的服务。根据GSMA的数据，从2016年到2020年，移动网络上的数据流量预计将以47%的复合年增长率增长，而同期收入预计仅以2.1%的复合年增长率增长。数学计算再简单不过了;为了保持网络的持续盈利，服务提供商必须找到大幅降低成本曲线的解决方案。为了实现这一点，未来的网络需要新的架构。传统的网络设备模式已经不能满足未来的需求，线性规模必须让位于超规模。服务提供商需要一个能够使网络具有弹性、可编程性和敏捷性的体系结构。软件定义网络(SDN)和网络功能虚拟化(NFV)是塑造未来网络架构的力量。网络扩展者已经证明了利用COTS平台和商业芯片构建超大规模软件定义基础设施的能力。SDN/NFV承诺为运营商做到这一点; driving optimal resource utilization and enabling them to innovate their networks at the speed-of-cloud.

  我们坚信第五波网络浪潮的三大支柱将是:

  • 新无线电(NR)
  • 新架构(SDN/NFV)和
  • 超级自动化(大数据、人工智能、机器学习)

  频谱是移动网络的命脉。为了显著提高网络吞吐量和显著降低延迟，未来的网络需要新的访问方式。5G NR正在通过显著提高频谱效率和利用更高的频段(>6GHz)来满足这些需求，包括毫米波，其中可提供更高的信道带宽。未来网络将利用授权和未授权频谱，以及新的共享频谱选项，如:美国的CBRS 3.5GHz。随着服务提供商成熟的28GHz、31GHz甚至60GHz毫米波射频技术，大量5G NR试验已经在进行中。我们还见证了基站本身与vRAN(虚拟化RAN)的分离。vRAN将大大降低RAN设备的成本。RRH(远程射频头)正在从BBU(基带单元)中解耦，并且BBU本身正在被虚拟化。这让我想到了NFV。

  SDN和NFV通过将云技术应用于运营商网络，奠定了未来网络的基础。我们已经见证了开源软件在未来网络中日益增长的重要性。这个行业有许多开源项目，包括:OpenStack、OpenDayLight、ONOS、ONAP、OSM、CORD等等。软件体系结构本身正在演变为微服务，因为服务提供商要求解决方案是云原生的。旧的烟囱式OSS堆栈开始让位于新时代的管理与编排(MANO)解决方案，这将带来前所未有的敏捷性，使服务提供商能够快速设计、实现和提供新的服务。新的架构将使服务提供商能够实现闭环控制，这样网络就可以根据不同的交通状况弹性地向上和向下扩展。最后，新架构将支持网络切片，使服务提供商能够以编程方式创建网络切片，以满足各种物联网用例的不同需求。

  将数据湖中收集的大量网络数据与强大的计算能力相结合，可以释放机器学习和人工智能算法的力量，从而实现前所未有的超自动化水平。未来的网络将具有自我意识和自我优化。利用预测分析，这些网络将实现最佳资产利用率和接近实时的自动伸缩。他们将能够预测错误并自我修复。超自动化将为自防御网络铺平道路，这将能够检测流量异常，并主动防止安全攻击，如最近Mirai大规模DDoS僵尸网络攻击。

  总之，随着对数据需求的持续增长，通信行业的未来看起来非常光明。物联网为服务提供商提供了前所未有的增长机会。为了成功抓住这些增长机遇，服务提供商必须改造其网络，以实现前所未有的敏捷性、灵活性和自动化水平。网络的第五次浪潮将远远超出无线电创新。新无线电(NR)、新架构(SDN/NFV)和超级自动化(AI/ML)将成为未来网络的关键支柱。对于通信行业来说，这是最令人兴奋的时刻之一，有如此多的创新，如此多的变革和如此多的增长。

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