应用对未来网络的需求与挑战

李玉宏; 张朋; 金帝; 周颖超

doi:10.11959/j.issn.1000-0801.2019203

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应用对未来网络的需求与挑战

专题：先进数据网络 | 更新时间：2024-06-05

- 应用对未来网络的需求与挑战
- Application’s needs and challenges for future networks
- 电信科学 2019年35卷第8期页码：49-64
- 作者机构：
- 作者简介：
  
  [ "李玉宏（1968- ），女，北京邮电大学网络与交换技术国家重点实验室副教授，主要研究方向为未来网络架构及关键技术、数据流量建模和分析、智能车联网关键技术等。" ]
  [ "张朋（1995- ），男，北京邮电大学网络与交换技术国家重点实验室硕士生，主要研究方向为未来网络架构及协议体系、演进趋势等。" ]
  [ "金帝（1995- ），男，北京邮电大学网络与交换技术国家重点实验室硕士生，主要研究方向为未来网络架构、需求及其演进趋势等。" ]
  [ "周颖超（1996- ），女，北京邮电大学网络与交换技术国家重点实验室硕士生，主要研究方向为下一代网络、未来网络需求及其演进趋势等。" ]
- 基金信息：
  
  华为创新研究计划HIRPOpen2018资助项目;Huawei Innovation Research Program (HIRP) Open 2018(HO2018085297);华为创新研究计划HIRPOpen2018资助项目;Huawei Innovation Research Program (HIRP) Open 2018(HO2018115160)
- DOI：10.11959/j.issn.1000-0801.2019203
  中图分类号： TP393
- 网络出版日期：2019-08，
  
  纸质出版日期：2019-08-20
- 稿件说明：
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李玉宏, 张朋, 金帝, 等. 应用对未来网络的需求与挑战[J]. 电信科学, 2019,35(8):49-64.

Yuhong LI, Peng ZHANG, Di JIN, et al. Application’s needs and challenges for future networks[J]. Telecommunications science, 2019, 35(8): 49-64.
李玉宏, 张朋, 金帝, 等. 应用对未来网络的需求与挑战[J]. 电信科学, 2019,35(8):49-64. DOI： 10.11959/j.issn.1000-0801.2019203.

Yuhong LI, Peng ZHANG, Di JIN, et al. Application’s needs and challenges for future networks[J]. Telecommunications science, 2019, 35(8): 49-64. DOI： 10.11959/j.issn.1000-0801.2019203.

摘要

技术的发展和未来社会全面数字化、智能化的需求，使多种新的网络应用成为可能。这些应用的大规模使用给用户“身临其境”、高速交互与精准控制的极致体验，同时也对传输能力提出了极高的要求。从描述未来网络中的 4 个应用场景出发，通过对比当今和未来网络应用的场景特点、技术实现手段和方法、用户体验、性能指标要求，分析未来网络应用的演进趋势和网络传输指标要求，总结和预测对未来网络的能力需求。

Abstract

The development of technology and the need for comprehensive digital and intelligent society in the future make a variety of new network applications possible.The large-scale use of these applications will put extremely high demands on the transmitting networks while satisfying users’ requirements of the ultimate “immersive experience”

high-speed interaction and precise control.The typical emerging applications including the technical methods for realizing the applications

user experience and performance requirements of the applications were analyzed.The evolution trends of the networking applications were summarized by comparing the characteristics of current and emerging applications

aiming at analyzing the challenges of the emerging applications on the future networks and predicting the requirements on the future networks.

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Keywords

references

FETTWEIS G P . The tactile internet:applications and challenges [J ] . IEEE Vehicular Technology Magazine , 2014 , 9 ( 1 ): 64 - 70 .

FETTWEIS G , BOCHE H , WIEGAND T , et al . The tactile internet-ITU-T technology watch report [R ] . International Telecommunication Union (ITU) , 2014 .

ETSI . IPv6 Industrial Specification Group (ISG).IPv6-based tactile internet [EB ] . http://www.sony.net/Products/ clefia/technical/data/clefia-eval-1.0.pdf http://www.sony.net/Products/ clefia/technical/data/clefia-eval-1.0.pdf . 2007 .

IEEE “Tactile Internet” Standards Working Group .. Tactile internet:application scenarios,definitions and terminology,architecture,functions,and technical assumptions:P1918.1 [S ] .2016. 2016 .

NetWorld2020 . White paper:smart networks in the context of NGI [R ] . 2018 .

Huawei . IP 2020:on the road towards next generation internet [R ] . 2017 .

WESTPHAL C , . Challenges in networking to support augmented reality and virtual reality [C ] // IEEE International Conference on Computing Networking and Communications,Jan 26-29,2017,Silicon Valley,USA . Piscataway:IEEE Press , 2017 .

ELBAMBY M S , PERFECTO C , BENNIS M , et al . Toward low-latency and ultra-reliable virtual reality [J ] . IEEE Network , 2018 , 32 ( 2 ): 78 - 84 .

MPEG . The 122nd ISO/IEC JTC 1/SC 29/WG 11 (MPEG) meeting [EB ] . 2018 .

SUKHMANI S , SADEGHI M ， EROL-KANTARCI M , et al . Edge caching and computing in 5G for mobile AR/VR and Tactile Internet [J ] . IEEE MultiMedia , 2018 , 26 ( 1 ): 21 - 30 .

BASTUG E , BENNI M , MEDARD M , et al . Toward interconnected virtual reality:opportunities,challenges,and enablers [J ] . IEEE Communications Magazine , 2017 , 55 ( 6 ): 110 - 117 .

董振江 , 张东卓 , 黄成 , 等 . 虚拟现实视频处理与传输技术 [J ] . 电信科学 , 2017 , 33 ( 8 ): 45 - 52 .

DONG Z J , ZHANG D Z , HUANG C , et al . Technology of virtual reality video processing and streaming [J ] . Telecommunications Science , 2017 , 33 ( 8 ): 45 - 52 .

AIJAZ A , DOHLER M , AGHVAM A H , et al . Realizing the tactile internet:haptic communications over next generation 5G cellular networks [J ] . IEEE Wireless Communications , 2016 , 24 ( 2 ): 82 - 89 .

ZHANG Q , LIU J , ZHAO G . Towards 5G enabled tactile robotic telesurgery [J ] . arXiv:1803.03586 , 2018

DANIEL V D B , GLANS R , DE K D , et al . Challenges in haptic communications over the tactile internet [J ] . IEEE Access , 2017 ( 5 ): 23502 - 23518 .

HIRCHE S , BUSS M . Transparent data reduction in networked telepresence and teleaction systems.part ii:time-delayed communication [J ] . Presence:Teleoperators and Virtual Environments , 2007 , 16 ( 5 ): 532 - 542 .

KAMMERL J , VITTORIA I , NITSCH V , et al . Perception-based data reduction for haptic force-feedback signals using velocity-adaptive deadbands [J ] . Presence:Teleoperators and Virtual Environments , 2010 , 19 ( 5 ): 450 - 462 .

KIM K S , KIM D K , CHAE C B , et al . Ultrareliable and low-latency communication techniques for tactile internet services [J ] . Proceedings of the IEEE , 2019 , 107 ( 2 ): 376 - 393 .

BLINDER D , AHAR A , BETTENS S , et al . Signal processing challenges for digital holographic video display systems [J ] . Signal Processing:Image Communication , 2019 , 70 : 114 - 130 .

BLINDER D , SCHRETTER C , SCHELKENS P . Global motion compensation for compressing holographic videos [J ] . Optics express , 2018 , 26 ( 20 ): 25524 - 25533 .

Human olfactory displays and interfaces:Odor sensing and presentation [M ] . Pennsylvania : IGI Global SnippetPress , 2013 .

ROCK F , BARASAN N , WEIMAR U . Electronic nose:current status and future trends [J ] . Chemical Reviews , 2008 , 108 ( 2 ): 705 - 725 .

AHAR A , BIRNBAUM T , JAEH C , et al . A new similarity measure for complex valued data [C ] // Digital Holography and Three-Dimensional Imaging,May 29–June 1,2017,JeJu Island South Korea . Washington:Optical Society of America , 2017 .

AHAR A , BARRI A , SCHELKENS P . From sparse coding significance to perceptual quality:a new approach for image quality assessment [J ] . IEEE Transactions on Image Processing , 2018 , 27 ( 2 ): 879 - 893 .

SON J Y , LEE H , LEE B R , et al . Holographic and light-field imaging as future 3-D displays [J ] . Proceedings of the IEEE , 2017 , 105 ( 5 ): 789 - 804 .

顾华荣 . 计算全息三维显示的数据压缩编码技术 [J ] . 红外与激光工程 , 2018 , 47 ( 6 ): 42 - 47 .

GU H R . Data compression coding technologies for computer-generated holographic three-dimensional display [J ] . Infrared and Laser Engineering , 2018 , 47 ( 6 ): 42 - 47 .

RAPTIS T P , PASSARELLA A . A distributed data management scheme for industrial IoT environments [C ] // 2017 IEEE 13th International Conference on Wireless and Mobile Computing,Networking and Communications (WiMob),Oct 9-11,2017,Rome,Italy . Piscataway:IEEE Press , 2017 : 196 - 203 .

ASCORTI L , SAVAZZI S , SOATTI G , et al . A wireless cloud network platform for industrial process automation:critical data publishing and distributed sensing [J ] . IEEE Transactions on Instrumentation and Measurement , 2017 , 66 ( 4 ): 592 - 603 .

KAUR K , GARG S , AUJLA G S , et al . Edge computing in the industrial internet of things environment:software-defined networks-based edge-cloud interplay [J ] . IEEE communications magazine , 2018 , 56 ( 2 ): 44 - 51 .

HAERICK W , GUPTA M . 5G and the factories of the future [R ] . 5G-PPP White Paper , 2015 .

SCHULZ P , MATTHE M , KLESSIG H , et al . Latency critical IoT applications in 5G:perspective on the design of radio interface and network architecture [J ] . IEEE Communications Magazine , 2017 , 55 ( 2 ): 70 - 78 .

ALLIANCE N . 5G white paper [R ] . 2015 .

CAMPANELLA A , . Intent based network operations [C ] // Optical Fiber Communication Conference,Mar 3-7,2019,San Diego,USA . Washington:Optical Society of America , 2019 .

网络 5.0 产业和技术创新联盟.网络 5.0 技术白皮书 [R ] . 2019 .

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