SELFNET 5G mobile edge computing infrastructure: Design and prototyping

被引:7
|
作者
Chirivella-Perez, Enrique [1 ]
Marco-Alaez, Ricardo [1 ]
Hita, Alba [1 ]
Serrano, Ana [1 ]
Calero, Jose M. Alcaraz [1 ]
Wang, Qi [1 ]
Neves, Pedro M. [2 ]
Bernini, Giacomo [3 ]
Koutsopoulos, Konstantinos [4 ]
Gil Perez, Manuel [5 ]
Martinez Perez, Gregorio [5 ]
Barros, Maria Joao [6 ]
Gavras, Anastasius [6 ]
机构
[1] Univ West Scotland, Sch Comp Engn & Phys Sci, Paisley PA1 2BE, Renfrew, Scotland
[2] Altice Labs SA, Aveiro, Portugal
[3] Nextworks, Pisa, Italy
[4] Creat Syst Engn Monoprosopi Epe, Athens, Greece
[5] Univ Murcia, Fac Comp Sci, Murcia, Spain
[6] Eurescom GmbH, Heidelberg, Germany
来源
SOFTWARE-PRACTICE & EXPERIENCE | 2020年 / 50卷 / 05期
基金
欧盟地平线“2020”;
关键词
deployment; infrastructure; mobile edge computing; network function virtualization; software-defined networks; 5G; MANAGEMENT; NETWORK;
D O I
10.1002/spe.2681
中图分类号
TP31 [计算机软件];
学科分类号
081202 ; 0835 ;
摘要
This paper presents the design and prototype implementation of the SELFNET fifth-generation (5G) mobile edge infrastructure. In line with the current and emerging 5G architectural principles, visions, and standards, the proposed infrastructure is established primarily based on a mobile edge computing paradigm. It leverages cloud computing, software-defined networking, and network function virtualization as core enabling technologies. Several technical solutions and options have been analyzed. As a result, a novel portable 5G infrastructure testbed has been prototyped to enable the preliminary testing of the integrated key technologies and to provide a realistic execution platform for further investigating and evaluating software-defined networking- and network function virtualization-based application scenarios in 5G networks.
引用
收藏
页码:741 / 756
页数:16
相关论文
共 50 条
  • [41] Mobile Edge Computing and Field Trial Results for 5G Low Latency Scenario
    Jianmin Zhang
    Weiliang Xie
    Fengyi Yang
    Qi Bi
    中国通信, 2016, 13(S2) (S2) : 174 - 182
  • [42] Energy-Efficient Offloading for Mobile Edge Computing in 5G Heterogeneous Networks
    Zhang, Ke
    Mao, Yuming
    Leng, Supeng
    Zhao, Quanxin
    Li, Longjiang
    Peng, Xin
    Pan, Li
    Maharjan, Sabita
    Zhang, Yan
    IEEE ACCESS, 2016, 4 : 5896 - 5907
  • [43] Mobile Edge Computing and Field Trial Results for 5G Low Latency Scenario
    Zhang, Jianmin
    Xie, Weiliang
    Yang, Fengyi
    Bi, Qi
    CHINA COMMUNICATIONS, 2016, 13 (02) : 174 - 182
  • [44] RELIABLE: Resource Allocation Mechanism for 5G Network using Mobile Edge Computing
    Pereira, Rickson S.
    Lieira, Douglas D.
    da Silva, Marco A. C.
    Pimenta, Adinovam H. M.
    da Costa, Joahannes B. D.
    Rosario, Denis
    Villas, Leandro
    Meneguette, Rodolfo, I
    SENSORS, 2020, 20 (19) : 1 - 18
  • [45] Mobile Edge Computing and Field Trial Results for 5G Low Latency Scenario
    Jianmin Zhang
    Weiliang Xie
    Fengyi Yang
    Qi Bi
    China Communications, 2016, (S2) : 174 - 182
  • [46] Mobile Edge Computing Towards 5G: Vision, Recent Progress, and Open Challenges
    Yifan Yu
    中国通信, 2016, 13(S2) (S2) : 89 - 99
  • [47] Location Privacy Protection via Delocalization in 5G Mobile Edge Computing Environment
    Cui, Guangming
    He, Qiang
    Chen, Feifei
    Jin, Hai
    Xiang, Yang
    Yang, Yun
    IEEE TRANSACTIONS ON SERVICES COMPUTING, 2023, 16 (01) : 412 - 423
  • [48] A collaborative mobile edge computing and user solution for service composition in 5G systems
    Al Ridhawi, Ismaeel
    Aloqaily, Moayad
    Kotb, Yehia
    Al Ridhawi, Yousif
    Jararweh, Yaser
    TRANSACTIONS ON EMERGING TELECOMMUNICATIONS TECHNOLOGIES, 2018, 29 (11):
  • [49] Collaborative Mobile Edge Computing in 5G Networks: New Paradigms, Scenarios, and Challenges
    Tran, Tuyen X.
    Hajisami, Abolfazl
    Pandey, Parul
    Pompili, Dario
    IEEE COMMUNICATIONS MAGAZINE, 2017, 55 (04) : 54 - 61
  • [50] Mobile Edge Computing Towards 5G: Vision, Recent Progress, and Open Challenges
    Yu, Yifan
    CHINA COMMUNICATIONS, 2016, 13 (02) : 89 - 99
12345