Multi-PoP Network Slice Deployment: A Feasibility Study

Valsamas, Polychronis; Papadimitriou, Panagiotis; Sakellariou, Ilias; Petridou, Sophia; Mamatas, Lefteris; Clayman, Stuart; Tusa, Francesco; Galis, Alex

doi:10.1109/cloudnet47604.2019.9064124

Cited by 15 publications

(9 citation statements)

References 14 publications

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“…These mobile network infrastructures and services utilize virtualization, containerization and SDN technologies to increase the flexibility of network provision, deployment and operational models and the business transformation and service agility across multiple mobile networks. In particular, these mobile network infrastructures or services provide network independence and network seclusion, which has been demonstrated with multiple points-of-presence slice segment stitching to construct a network slice and also various resources being flexibly manipulated for a network slice [12]. Traditionally, the MNO only has a single administrative domain (AD) to manage, a network element and subscriber to protect, an impersonation of a subscriber to prevent, static attack vectors to identify, etc.…”

Section: Network Slice Isolation As a Security Measurementioning

confidence: 99%

5G Network Slice Isolation

Wong

Han

Schotten

2022

Network

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This article reveals an adequate comprehension of basic defense, security challenges, and attack vectors in deploying multi-network slicing. Network slicing is a revolutionary concept of providing mobile network on-demand and expanding mobile networking business and services to a new era. The new business paradigm and service opportunities are encouraging vertical industries to join and develop their own mobile network capabilities for enhanced performances that are coherent with their applications. However, a number of security concerns are also raised in this new era. In this article, we focus on the deployment of multi-network slicing with multi-tenancy. We identify the security concerns and discuss the defense approaches such as network slice isolation and insulation in a multi-layer network slicing security model. Furthermore, we identify the importance to appropriately select the network slice isolation points and propose a generic framework to optimize the isolation policy regarding the implementation cost while guaranteeing the security and performance requirements.

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Section: Network Slice Isolation As a Security Measurementioning

confidence: 99%

5G Network Slice Isolation

Wong

Han

Schotten

2022

Network

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“…EDGE and SDN, the previous two technologies presented, can be combined with NFV, as shown by Huang et al [148], Yang et al [151], Costa-Requena et al [161], etc. Other relevant contributions combining NFV with other technologies include the works of Bekkouche et al [177], Valsamas et al [178] and Yao et al [179]. Bekkouche et al [177] propose an extended framework for the management and orchestration of unmanned aerial vehicles (UAVs).…”

Section: ) Software-defined Networking (Sdn)mentioning

confidence: 99%

“…Sun et al [175] NFV MANO: SC Optimization Fan et al [176] NFV MANO: Redundancy NFV MANO: SC Optimization Bekkouche et al [177] Slice Mgmt: EDGE Selection Slice Mgmt: Offloading NFV MANO: Plcmt & Migr. Valsamas et al [178] Slice Mgmt: Network Stitching Yao et al [179] Slice Mgmt: Network Stitching [183] DP Mgmt: Caching Zhang et al [184] DP Mgmt: Caching Sardara et al [185] Ctxt Awa: Cross-layer Dannewitz et al [186] DP Mgmt: Caching Wang et al [187] Ctxt Awa: Cross-layer Vakilina et al [188] DP Mgmt: Congestion control samas et al [178] and Yao et al [179] present network slicing platforms that support different interconnected services and achieve improved latency and reliability, respectively.…”

Section: ) Software-defined Networking (Sdn)mentioning

confidence: 99%

A Survey of End-to-End Solutions for Reliable Low-Latency Communications in 5G Networks

Rico

Merino

2020

IEEE Access

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Very low latency and high reliability are two of the main requirements for new applications exploiting 5G networks. This is the case for the remote operation of robots or vehicles, the autonomous interaction of equipment in a factory, autonomous driving and tactile internet applications. Although the TCP/IP stack has been sufficient as the end-to-end solution for most of the history of the Internet, a number of surveys have appeared recently presenting many different methods for managing the end-to-end communication to meet the requirements of various technologies such as that of 5G networks. In this paper, we present a novel classification of the literature focused on new end-to-end solutions and the creation of services towards the support of low latency (1 ms) and high reliability (10-9 error rate) in current and future 5G networks. We specifically highlight how the proposals can be classified according to enabling technologies and the specific method used to achieve success in terms of the latency and reliability. The literature related to end-to-end solutions for reliable low-latency communications are organized according to three main topics: (i) end-to-end protocols that improve communication in terms of latency and reliability, (ii) functionality or technologies implemented on the network to support the current demands, and (iii) application programming interfaces that enhance the correct utilization of those protocols and additional technologies.

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“…The main contributions of this article are three-fold: (i) an overview of the capabilities required to support end-to-end cloud-network slicing over multiple cloud and network resource providers; (ii) the final design of the novel NECOS LSDC architecture, offering those capabilities via the Sliceas-a-Service model; and (iii) an evaluation of the NECOS modular architecture and the above six NECOS features through the testbed experimentation of three different scenarios built upon proof-of-concept software prototypes. The work described in [9] introduces the initial proposal in the context of the project, while [10] covers an earlier feasibility study of NECOS. This article extends both previous publications by exercising the architecture and system platform (fully detailed in project deliverables [11], [12]) in three proof-of-concept experiments on the final implementation.…”

Section: Introductionmentioning

confidence: 99%

The NECOS Approach to End-to-End Cloud-Network Slicing as a Service

et al. 2021

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Cloud-network slicing is a promising approach to serve vertical industries delivering their services over multiple administrative and technological domains. However, there are numerous open challenges to provide end-to-end slices due to complex business and engineering requirements from service and resource providers. This article presents a reference architecture for the cloud-network slicing concept and the practical realization of the Slice-as-a-Service paradigm, which are key results from the NECOS (Novel Enablers in Cloud Slicing) project. The NECOS platform has been designed to consider modularity, separation of concerns, and multi-domain dynamic operation as prime attributes. The architecture comprises a set of inter-working components to automatically create, manage, and decommission end-to-end Cloud-Network slice instances in a lightweight manner. NECOS orchestrates slices at run-time, spanning across core / edge data centres and wired / wireless network infrastructures. The novelties of the multi-domain NECOS platform are validated through three proof-of-concept experiments: (i) a touristic content delivery service slice deployment featuring on-demand virtual infrastructure management across three countries in different continents to meet particular slice requirements; (ii) intelligent slice elasticity driven by machinelearning techniques; and (iii) marketplace-based resource discovery capabilities.

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Multi-PoP Network Slice Deployment: A Feasibility Study

Cited by 15 publications

References 14 publications

5G Network Slice Isolation

5G Network Slice Isolation

A Survey of End-to-End Solutions for Reliable Low-Latency Communications in 5G Networks

The NECOS Approach to End-to-End Cloud-Network Slicing as a Service

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