Wireless-Optical Network Convergence: Enabling the 5G Architecture to Support Operational and End-User Services

Tzanakaki, Anna; Αναστασόπουλος, Μάρκος Π.; Berberana, Ignacio; Syrivelis, Dimitris; Flegkas, Paris; Korakis, Thanasis; Mur, Daniel Camps; Demirkol, Ilker; Gutiérrez, Jesús; Grass, Eckhard; Quan, Wei; Pateromichelakis, Emmanouil; Vučić, Nikola; Fehske, Albrecht; Grieger, Michael; Eiselt, Michael; Bartelt, Jens; Fettweis, Gerhard; Lyberopoulos, George; Theodoropoulou, Eleni; Simeonidou, Dimitra

doi:10.1109/mcom.2017.1600643

Cited by 90 publications

(60 citation statements)

References 9 publications

(23 reference statements)

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“…Due to the higher scale and efficiency of cDCs their cost per unit of processing/storage tends to be lower than that of eDCs. The price difference is mainly attributed to higher energy efficiency of cDCs and lower operational costs. Therefore, it is expected that the cost of hosting a content replica in an eDC is substantially higher than hosting the same replica in a cDC.…”

Section: Attack‐resilient Content Placement Frameworkmentioning

confidence: 99%

“…The introduction of edge computing has the potential to help satisfy the stringent 5G performance requirements, but poses new challenges to the infrastructure providers. For instance, the smaller scale of edge data centers (eDCs) leads to higher costs per unit of storage due to inefficiencies that arise from cooling and/or lower degree of resource sharing . Therefore, CDNs use a hierarchical, two‐tier approach to cost‐efficiently cope with the application requirements.…”

Section: Introductionmentioning

confidence: 99%

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Content placement in 5G‐enabled edge/core data center networks resilient to link cut attacks

et al. 2020

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High throughput, resilience, and low latency requirements drive the development of 5G‐enabled content delivery networks (CDNs) which combine core data centers (cDCs) with edge data centers (eDCs) that cache the most popular content closer to the end users for traffic load and latency reduction. Deployed over the existing optical network infrastructure, CDNs are vulnerable to link cut attacks aimed at disrupting the overlay services. Planning a CDN to balance the stringent service requirements and increase resilience to attacks in a cost‐efficient way entails solving the content placement problem (CPP) across the cDCs and eDCs. This article proposes a framework for finding Pareto‐optimal solutions with minimal user‐to‐content distance and maximal robustness to targeted link cuts, under a defined budget. We formulate two optimization problems as integer linear programming (ILP) models. The first, denoted as K‐best CPP with minimal distance (K‐CPP‐minD), identifies the eDC/cDC placement solutions with minimal user‐to‐content distance. The second performs critical link set detection to evaluate the resilience of the K‐CPP‐minD solutions to targeted fiber cuts. Extensive simulations verify that the eDC/cDC selection obtained by our models improves network resilience to link cut attacks without adversely affecting the user‐to‐content distances or the core network traffic mitigation benefits.

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Section: Attack‐resilient Content Placement Frameworkmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Content placement in 5G‐enabled edge/core data center networks resilient to link cut attacks

et al. 2020

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“…In this context, Cloud-Radio Access Networks (C-RANs) have been recently proposed as a key concept to address the inefficiencies of traditional RAN systems and support services requiring very low latency, high reliability, density and mobility. In C-RAN, Remote Units (RUs), are connected to the Central Unit (CU) where the Baseband Unit (BBU) pool is located through high bandwidth transport links, transmitting I/Q streams, known as fronthaul (FH) [1]. Through its pooling and coordination gains, C-RAN addresses the increased capital and operational costs, as well as the limited scalability and flexibility of traditional RAN.…”

Section: Optical Transport Network For 5g Servicesmentioning

confidence: 99%

“…However, this transformation will require new service capabilities that network operators need to support including: i) connectivity for a growing number of very diverse devices, ii) ubiquitous access with varying degrees of mobility from low to high in heterogeneous environments and, iii) mission critical services currently handled by closed specific purpose networks [1]. These demanding and diverse requirements cannot be supported by current 4G solutions and best effort internet connections or a smooth migration from existing network architectures and technology deployments to next generation solutions.…”

Section: Introductionmentioning

confidence: 99%

Optical Transport Networks for 5G: An enabler for vertical industries

Tzanakaki

Αναστασόπουλος

Beldachi

et al. 2019

2019 24th OptoElectronics and Communications Conference (OECC) and 2019 International Conference on Photonics in Switching and

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“…Compared with its precedent wireless communication standards (i.e., 1G, 2G, 3G, and 4G networks), the 5G system is proposed to support wider range of connected devices types and various service applications [1,2]. It is estimated that the 5G would become the ubiquitous information infrastructure network in the near future [3].…”

Section: Introductionmentioning

confidence: 99%

General Multimedia Trust Authentication Framework for 5G Networks

Xing

et al. 2018

Wireless Communications and Mobile Computing

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Due to the varieties of services and the openness of network architectures, great challenges for information security of the 5G systems are posed. Although there exist various and heterogeneous security communication mechanisms, it is imperative to develop a more general and more ubiquitous authentication method for data security. In this paper, we propose for the 5G networks a novel multimedia authentication framework, which is based upon the trusted content representation (TCR). The framework is general and suitable for various multimedia contents, e.g., text, audio, and video. The generality of the framework is achieved by the TCR technique, which authenticates the contents' semantics in both high and low levels. Analysis shows that the authentication framework is able to authenticate multimedia contents effectively in terms of active and passive authenticating ways.

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Wireless-Optical Network Convergence: Enabling the 5G Architecture to Support Operational and End-User Services

Cited by 90 publications

References 9 publications

Content placement in 5G‐enabled edge/core data center networks resilient to link cut attacks

Content placement in 5G‐enabled edge/core data center networks resilient to link cut attacks

Optical Transport Networks for 5G: An enabler for vertical industries

General Multimedia Trust Authentication Framework for 5G Networks

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