[1] Eluwole, O., Udoh, N., Ojo, M., Okoro, C. & Akinyoade, A. From 1G to 5G, what next?.IAENG International Journal Of Computer Science. 45 (2018)
[2] Zeqiri, R., Idrizi, F. & Halimi, H. Comparison of Algorithms and Technologies 2G, 3G, 4G and 5G.2019 3rd International Symposium On Multidisciplinary Studies And Innovative Technologies (ISMSIT). pp. 1-4 (2019)
[3] Pham, Q., Fang, F., Ha, V., Piran, M., Le, M., Le, L., Hwang, W. & Ding, Z. A Sur-vey of Multi-Access Edge Computing in 5G and Beyond: Fundamentals, Technology Integration, and State-of-the-Art. IEEE Access. 8 pp. 116974-117017 (2020)
[4] Ericsson Mobility Report - Key Figures. (https://www.ericsson.com/en/reports-and-papers/mobility-report/key-figures), Acessado em: Fevereiro/2022
[5] Ericsson Mobility Report - Mobility Visualizer.
(https://www.ericsson.com/en/reports-and-papers/mobility-report/mobility-visualizer?f=8&ft=2&r=1&t=8&s=4&u=3&y=2021,2027&c¯3), Acessado em:
Fevereiro/2022
[6] Anatel Perguntas e Respostas - 5G. (https://www.gov.br/anatel/pt-br/assuntos/5G/perguntas-e-respostas), Acessado em: Fevereiro/2022
[7] Juniper What is 5G. (https://www.juniper.net/br/pt/research-topics/what-is-5g.html), Acessado em: Mar¸co/2022
[8] Monteiro, T. Connected cars : o presente e futuro da ind´ustria e o papel das teleco-munica¸c˜oes. (Universidade Cat´olica Portuguesa,2018)
[9] De Mattos, W. & Gondim, P. M-health solutions using 5G networks and M2M com-munications.IT Professional. 18, 24-29 (2016)
67
[10] Anatel Tecnologia 5G. (https://www.gov.br/anatel/pt-br/assuntos/5G/tecnologia-5g), Acessado em: Mar¸co/2022
[11] ITU ITU agrees on key 5G performance requirements for IMT-2020.
(https://www.itu.int/en/mediacentre/Pages/2017-PR04.aspx), Acessado em:
Mar¸co/2022
[12] ITU Draft new Report ITU-R M.[IMT-2020.TECH PERF REQ] - Minimum requirements related to technical performance for IMT-2020 radio interface(s).
(https://www.itu.int/md/R15-SG05-C-0040/en), Acessado em: Mar¸co/2022
[13] U, E. ITU-R Workshop on IMT-2020 terrestrial radio interfa-ces. (https://www.itu.int/en/ITU-R/study-groups/rsg5/rwp5d/imt-2020/Documents/S01-1 Requirements%20for%20IMT-2020 Rev.pdf), Acessado em: Mar¸co/2022
[14] Popovski, P., Trillingsgaard, K., Simeone, O. & Durisi, G. 5G Wireless Network Slicing for eMBB, URLLC, and mMTC: A Communication-Theoretic View. IEEE Access. 6 pp. 55765-55779 (2018)
[15] OFCOM Enabling 5G in the UK. (https://www.ofcom.org.uk/spectrum/information/innovation-licensing/enabling-5g-uk), Acessado em Fevereiro/2022
[16] Li, Z., Uusitalo, M., Shariatmadari, H. & Singh, B. 5G URLLC: Design challenges and system concepts. 2018 15th International Symposium On Wireless Communication Systems (ISWCS). pp. 1-6 (2018)
[17] Carritech 5G Spectrum – Low, Mid and High Bands Explained.
(https://www.carritech.com/news/5g-spectrum/), Acessado em Mar¸co/2022
[18] Chataut, R. & Akl, R. Massive MIMO Systems for 5G and beyond Networks—Overview, Recent Trends, Challenges, and Future Research Direction.
Sensors. 20 (2020), https://www.mdpi.com/1424-8220/20/10/2753
[19] Bj¨ornson, E., Larsson, E. & Marzetta, T. Massive MIMO: ten myths and one critical question.IEEE Communications Magazine. 54, 114-123 (2016)
69 [20] Mao, J., Gao, Z., Wu, Y. & Alouini, M. Over-sampling codebook-based hybrid mi-nimum sum-mean-square-error precoding for millimeter-wave 3D-MIMO. IEEE Wi-reless Communications Letters. 7, 938-941 (2018)
[21] Kuo, P. & Mourad, A. Millimeter wave for 5G mobile fronthaul and backhaul. 2017 European Conference On Networks And Communications (EuCNC). pp. 1-5 (2017)
[22] Gupta, A. & Jha, R. A survey of 5G network: Architecture and emerging technolo-gies. IEEE Access. 3 pp. 1206-1232 (2015)
[23] BTS, Y. LTE Architecture Concepts. (https://yatebts.com/documentation/concepts/lte-concepts/), Acessado em Mar¸co/2022
[24] Oliveira, L., Alencar, M. & Lopes, W. Evolu¸c˜ao da Arquitetura de Redes M´oveis Rumo ao 5G.Revista De Tecnologia Da Informa¸c˜ao E Comunica¸c˜ao. 8, 43-50 (2018) [25] Cisco Control Plane and User Plane Separation (CUPS) Data Sheet.
(https://www.cisco.com/c/en/us/solutions/collateral/service-provider/ultra-services-platform/data-sheet-c78-741416.html), Acessado em: Mar¸co/2022
[26] Solutions, V. 5G Architecture. (https://www.viavisolutions.com/en-us/5g-architecture), Acessado em: Mar¸co/2022
[27] Liu, Y., Peng, M., Shou, G., Chen, Y. & Chen, S. Toward Edge Intelligence: Mul-tiaccess Edge Computing for 5G and Internet of Things. IEEE Internet Of Things Journal. 7, 6722-6747 (2020)
[28] Hat, R. O que ´e virtualiza¸c˜ao?. (https://www.redhat.com/pt-br/topics/virtualization/what-is-virtualization), Acessado em: Mar¸co/2022
[29] Almeida, Y. Do 0 ao 1: Virtualiza¸c˜ao [online]. (Dispon´ıvel na In-ternet via: https://www.udemy.com/share/106bVW3@XNYosHtqeI-AZNtYOSvc8MyZUdLnHkx1EvoXUa1CwjlhIcbRvlA54HzjYk4Lz0Fq0w==/), Acessado em: Mar¸co/2022
[30] Tanenbaum, A. & Machado Filho, N. Sistemas operacionais modernos. (Prentice-Hall,1995)
[31] Ghannoum, R. & Rodrigues, F. VIRTUALIZA ¸C ˜AO DE SERVIDORES: VANTA-GENS E DESVANTAVANTA-GENS. REVISTA MIRANTE, An´apolis (GO), Vers˜ao 11, ISSN 19814089. (2018)
[32] Nickoloff, J. & Kuenzli, S. Docker in action. (Simon,2019)
[33] Barik, R., Lenka, R., Rao, K. & Ghose, D. Performance analysis of virtual machines and containers in cloud computing. 2016 International Conference On Computing, Communication And Automation (ICCCA). pp. 1204-1210 (2016)
[34] Turnbull, J. The Docker Book: Containerization is the new virtualization. (James Turnbull,2014)
[35] Cuadrado-Cordero, I., Orgerie, A. & Menaud, J. Comparative experimental analysis of the quality-of-service and energy-efficiency of VMs and containers’ consolidation for cloud applications.2017 25th International Conference On Software, Telecommu-nications And Computer Networks (SoftCOM). pp. 1-6 (2017)
[36] Salah, T., Zemerly, M., Yeun, C., Al-Qutayri, M. & Al-Hammadi, Y. Performance comparison between container-based and VM-based services. 2017 20th Conference On Innovations In Clouds, Internet And Networks (ICIN). pp. 185-190 (2017)
[37] Course, N. Introduction to Cloud Computing on AWS for Beginners [2022].
(https://www.udemy.com/course/introduction-to-cloud-computing-on-amazon-aws-for-beginners/), Acessado em: Abril/2022
[38] Docker Use containers to Build, Share and Run your applications.
(https://www.docker.com/resources/what-container/), Acessado em: Abril/2022 [39] Tao, Z., Xia, Q., Hao, Z., Li, C., Ma, L., Yi, S. & Li, Q. A Survey of Virtual Machine
Management in Edge Computing. Proceedings Of The IEEE. 107, 1482-1499 (2019) [40] Hat, R. Diferen¸cas entre containers e m´aquinas virtuais (VMs).
(https://www.redhat.com/pt-br/topics/containers/containers-vs-vms), Acessado em: Abril/2022
[41] Filali, A., Abouaomar, A., Cherkaoui, S., Kobbane, A. & Guizani, M. Multi-Access Edge Computing: A Survey.IEEE Access. 8 pp. 197017-197046 (2020)
71 [42] Antipolis, S. Network functions virtualisation (NFV); architectural framework v1.2,
White Paper.ETSI. 1.2 (2014)
[43] Networking, O. Software-Defined Networking (SDN) Definition.
(https://opennetworking.org/sdn-definition/), Acessado em: Mar¸co/2022
[44] Li, Y. & Chen, M. Software-Defined Network Function Virtualization: A Survey.
IEEE Access. 3 pp. 2542-2553 (2015)
[45] Macedo, D., Guedes, D., Vieira, L., Vieira, M. & Nogueira, M. Programmable Networks – From Software Defined Radio to Software Defined Networking. IEEE Communications Surveys And Tutorials. 17 pp. 1-1 (2015,4)
[46] 3GPP Release 16. (https://www.3gpp.org/release-16), Acessado em: Abril/2022 [47] Reply Fatiamento de rede - Abrindo o caminho para a tecnologia 5G.
(https://www.reply.com/br/industries/telco-and-media/5g-network-slicing), Aces-sado em: Abril/2022
[48] Rebello, G., Camilo, G., Silva, L., Guimar˜aes, L., Souza, L., Alvarenga, I. & Duarte, O. Provendo uma infraestrutura de software fatiada, isolada e segura de fun¸c˜oes virtuais atrav´es da tecnologia de corrente de blocos. Anais Do II Workshop Em Blockchain: Teoria, Tecnologia E Aplica¸c˜oes. (2019)
[49] Afolabi, I., Taleb, T., Samdanis, K., Ksentini, A. & Flinck, H. Network slicing and softwarization: A survey on principles, enabling technologies, and solutions. IEEE Communications Surveys & Tutorials. 20, 2429-2453 (2018)
[50] Garcia Lopez, P., Montresor, A., Epema, D., Datta, A., Higashino, T., Iamnitchi, A., Barcellos, M., Felber, P. & Riviere, E. Edge-centric computing: Vision and challenges.
ACM SIGCOMM Computer Communication Review. 45 pp. 37-42 (2015)
[51] Lumen White Paper - The Edge Compute Imperative.
(https://assets.lumen.com/is/content/Lumen/trend-report-the-edge-compute-imperative?Creativeid=73b32a74-65bb-4be5-a8be-a4edc71d945d), Acessado em:
Maio/2022
[52] Taleb, T., Samdanis, K., Mada, B., Flinck, H., Dutta, S. & Sabella, D. On Multi-Access Edge Computing: A Survey of the Emerging 5G Network Edge Cloud Archi-tecture and Orchestration. IEEE Communications Surveys Tutorials. 19, 1657-1681 (2017)
[53] Lin, L., Liao, X., Jin, H. & Li, P. Computation Offloading Toward Edge Computing.
Proceedings Of The IEEE. 107, 1584-1607 (2019)
[54] Cao, K., Liu, Y., Meng, G. & Sun, Q. An Overview on Edge Computing Research.
IEEE Access. 8 pp. 85714-85728 (2020)
[55] Hassan, N., Yau, K. & Wu, C. Edge computing in 5G: A Review.IEEE Access. 7 pp.
127276-127289 (2019)
[56] V1.1.1, E. Mobile Edge Computing (MEC); Mobile Edge Management; Part 1: Sys-tem host and platform management.ETSI. 10 (2017)
[57] V1.1.1, E. Mobile Edge Computing (MEC); Mobile Edge Management; Part 2: Ap-plication lifecycle, rules and requirements management. ETSI. 7 (2017)
[58] V1.1.1, E. Mobile Edge Computing (MEC); Mobile Edge Platform Application Ena-blement.ETSI. 7 (2017)
[59] V1.1.1, E. Mobile Edge Computing (MEC); Radio Network Information. ETSI. 7 (2017)
[60] V1.1.1, E. Mobile Edge Computing (MEC); Location API. ETSI. 7 (2017) [61] V1.1.1, E. Mobile Edge Computing (MEC); UE Identity API.ETSI. 2 (2018) [62] V1.1.1, E. Mobile Edge Computing (MEC); Bandwidth Management API.ETSI. 10
(2017)
[63] V1.1.1, E. Mobile Edge Computing (MEC); UE Application Interface.ETSI. 9 (2017) [64] V15.1.0, 3. 3rd Generation Partnership Project; Technical Specification Group Ser-vices and System Aspects; System Architecture for the 5G System; Stage 2 (Release 15). 3GPP. 3 (2018)
73 [65] Morris, I. ETSI drops “mobile” from MEC, 2016. Light Reading, New York, NY,
USA, Sep. (2016)
[66] Hu, Y., Patel, M., Sabella, D., Sprecher, N. & Young, V. Mobile edge computing—A key technology towards 5G. ETSI White Paper. 11, 1-16 (2015)
[67] Ali, B., Gregory, M. & Li, S. Multi-Access Edge Computing Architecture, Data Security and Privacy: A Review.IEEE Access. 9 pp. 18706-18721 (2021)
[68] Antipolis, S. ETSI GS MEC 003 V2.2.1 (2020-12) - Multi-access Edge Computing (MEC); Framework and Reference Architecture.ETSI. 2.2.1 (2020)
[69] Noferi, A., Nardini, G., Stea, G. & Virdis, A. Rapid prototyping and performance evaluation of MEC-based applications. ArXiv Preprint ArXiv:2203.13511. (2022) [70] Antipolis, S. ETSI GS MEC 002 V2.1.1 (2018-10) - Multi-access Edge Computing
(MEC); Phase 2: Use Cases and Requirements.ETSI. 2.1.1 (2018)
[71] Nokia Nokia Security considerations for 5G MEC White Paper.
(https://onestore.nokia.com/asset/207572), Acessado em: Maio/2022
[72] Kekki, S. & Others MEC in 5G networks. ETSI White Paper No. 28. 1 (2018) [73] 23.501, S. System Architecture for the 5G System. Standard 3GPP TS 23.501. 16
(2019)
[74] Bojovic, B., Lag´en, S., Koutlia, K. & Ali, Z. 5G-LENA simulator. (Dispon´ıvel na Internet via: https://5g-lena.cttc.es/), Acessado em: Julho/2022
[75] Nardini, G., Sabella, D., Stea, G., Thakkar, P. & Virdis, A. Simu5G–An OMNeT++
Library for End-to-End Performance Evaluation of 5G Networks.IEEE Access. 8 pp.
181176-181191 (2020)
[76] Sonmez, C. EdgeCloudSim. (Dispon´ıvel na Internet via:
https://github.com/CagataySonmez/EdgeCloudSim), Acessado em: Julho/2022 [77] Nardini, G., Stea, G. & Virdis, A. What is Simu5G: simulator for 5G New
Ra-dio networks. (Dispon´ıvel na Internet via: http://simu5g.org/), Acessado em: Ju-nho/2022
[78] Sommer, C., German, R. & Dressler, F. Bidirectionally Coupled Network and Road Traffic Simulation for Improved IVC Analysis. IEEE Transactions On Mobile Com-puting. 10, 3-15 (2011)
[79] Bojthe, Z., Meszaros, L., Sz´aszk˝o, G., Hornig, R., Varga, A. & T¨or¨ok, A. INET Framework. (Dispon´ıvel na Internet via: https://inet.omnetpp.org/), Acessado em:
Junho/2022
[80] Noferi, A., Nardini, G., Stea, G. & Virdis, A. Deployment and configuration of MEC apps with Simu5G.ArXiv Preprint ArXiv:2109.12048. (2021)
[81] Antipolis, S. ETSI GS MEC 012 V2.1.1 (2019-12) - Multi-access Edge Computing (MEC); Radio Network Information API.ETSI. 2.1.1 (2019)
[82] Antipolis, S. ETSI GS MEC 013 V2.1.1 (2019-09) - Multi-access Edge Computing (MEC) - Location API.ETSI. 2.1.1 (2019)
[83] Nardini, G., Stea, G. & Virdis, A. Install Guide. (Dispon´ıvel na Internet via:
http://simu5g.org/install.html), Acessado em: Junho/2022
[84] Nardini, G., Stea, G. & Virdis, A. Simu5G - 5G NR and LTE/LTE-A user-plane simulation model for OMNeT++ and INET. (Dispon´ıvel na Internet via:
https://github.com/Unipisa/Simu5G/tree/master/simulations/NR/mec/multiMecHost), Acessado em: Junho/2022
[85] Rolin, E. An´alise da qualidade e do desempenho da cobertura celular long term evolution em Curitiba, Paran´a. UFPR. (2014)
[86] Ahmed, A., Al-Dweik, A., Iraqi, Y., Mukhtar, H., Naeem, M. & Hossain, E. Hybrid Automatic Repeat Request (HARQ) in Wireless Communications Systems and Stan-dards: A Contemporary Survey. IEEE Communications Surveys And Tutorials. 23, 2711-2752 (2021)
[87] Nardini, G., Stea, G. & Virdis, A. Scalable Real-Time Emulation of 5G Networks With Simu5G. IEEE Access. 9 pp. 148504-148520 (2021)