A cloud native solution for dynamic auto scaling of MME in LTE

Amogh, P C; Veeramachaneni, Goutham; Rangisetti, Anil Kumar; Tamma, Bheemarjuna Reddy; Franklin, A. Antony

doi:10.1109/pimrc.2017.8292270

Cited by 20 publications

(16 citation statements)

References 7 publications

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“…In [ 18 ], a solution to migrate the MME component into a cloud-native one, in order to implement dynamically auto-scaling, was proposed. The motivation for the paper was to minimize the overhead due to control signaling from IoT applications implemented over 5G networks.…”

Section: Related Workmentioning

confidence: 99%

SDN-Based Network Slicing Mechanism for a Scalable 4G/5G Core Network: A Kubernetes Approach

Botez

Costa-Requena

Ivanciu

et al. 2021

Sensors

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Managing the large volumes of IoT and M2M traffic requires the evaluation of the scalability and reliability for all the components in the end-to-end system. This includes connectivity, mobile network functions, and application or services receiving and processing the data from end devices. Firstly, this paper discusses the design of a containerized IoT and M2M application and the mechanisms for delivering automated scalability and high availability when deploying it in: (1) the edge using balenaCloud; (2) the Amazon Web Services cloud with EC2 instances; and (3) the dedicated Amazon Web Services IoT service. The experiments showed that there are no significant differences between edge and cloud deployments regarding resource consumption. Secondly, the solutions for scaling the 4G/5G network functions and mobile backhaul that provide the connectivity between devices and IoT/M2M applications are analyzed. In this case, the scalability and high availability of the 4G/5G components are provided by Kubernetes. The experiments showed that our proposed scaling algorithm for network slicing managed with SDN guarantees the necessary radio and network resources for end-to-end high availability.

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Section: Related Workmentioning

confidence: 99%

SDN-Based Network Slicing Mechanism for a Scalable 4G/5G Core Network: A Kubernetes Approach

Botez

Costa-Requena

Ivanciu

et al. 2021

Sensors

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“…The core is a key mobile network component that handles the essential control functionality such as mobility, session and security management, and also bridges data communication between end devices and external networks like the Internet via the radio access network (RAN). Driven by the limitations of the traditional mobile network architecture and the wider trends in the mobile network industry, such as embracing network softwarization and supporting diverse use cases, mobile core networks have received a great deal of attention from the standardization bodies [1][2][3][4] as well as research [5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21] and open source [22][23][24][25][26] communities.…”

Section: Introductionmentioning

confidence: 99%

“…RAN emulation has become the commonly used mobile core system evaluation methodology, as reflected by [6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21], compared to other alternatives like testbed-based experimental evaluation, simulation and mathematical analysis. The general idea behind RAN emulation is to emulate the RAN elements -base stations and end devices (UEs) -from the perspective of the core system under test.…”

Section: Introductionmentioning

confidence: 99%

Nervion

Larrea

Marina

Merwe

2021

Proceedings of the 27th Annual International Conference on Mobile Computing and Networking

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Given the wide interest on mobile core systems and their pivotal role in the operations of current and future mobile network services, we focus on the issue of their effective evaluation, considering the radio access network (RAN) emulation methodology. While there exist a number of different RAN emulators, following different paradigms, they are limited in their scalability and flexibility, and moreover there is no one commonly accepted RAN emulator. Motivated by this, we present Nervion, a scalable and flexible RAN emulator for mobile core system evaluation that takes a novel cloud-native approach. Nervion embeds innovations to enable scalability via abstractions and RAN element containerization, and additionally supports an even more scalable control-plane only mode. It also offers ample flexibility in terms of realizing arbitrary RAN emulation scenarios, mapping them to compute clusters, and evaluating diverse core system designs. We develop a prototype implementation of Nervion that supports 4G and 5G standard compliant RAN emulation and integrate it into the Powder platform to benefit the research community. Our experimental evaluations validate its correctness and demonstrate its scalability relative to representative set of existing RAN emulators. We also present multiple case studies using Nervion that highlight its flexibility to support diverse types of mobile core evaluations. CCS CONCEPTS• Networks → Mobile networks; Network performance evaluation; Cloud computing.

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“…Cloud native is a new approach that has emerged as a solution to extract the maximum potential from cloud computing [7] [8] [9]. Contrary to a monolithic application, it is decomposed into smaller modules called microservices, and each microservice runs in a container in order to optimize resource utilization [10] [11]. Cloud-native applications are designed to run on cloud-native platforms, which runs on top of a cloud computing infrastructure.…”

Section: Introductionmentioning

confidence: 99%

SABER: An Infrastructure-Agnostic Benchmark Tool for Elasticity Evaluation on Cloud Foundry Based Platforms

Marques

Rubin

Souza

et al. 2020

2020 International Conference on Information Networking (ICOIN)

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Elasticity can be considered as one of the main features of cloud computing. It can be described as the ability to dynamically provision (or de-provision) resources to meet an application's demand. Cloud-native platforms support this feature, allowing applications to be vertically or horizontally scaled. However, evaluating the performance of elasticity in cloudnative platforms is not a trivial task. These platforms tend to focus on providing higher abstractions to their customers, which typically results in the absence of low-level metrics that are required for measuring and evaluating elasticity performance. Therefore, this paper presents SABER, an infrastructure-agnostic benchmark tool for elasticity evaluation of Cloud Foundry based platforms. SABER collects low-level metrics regarding elasticity typical procedures (e.g., allocation and de-allocation of resources) and can be used to evaluate elasticity on different cloud infrastructures. Furthermore, we present an evaluation of SABER running on Pivotal Application Service, a Cloud Foundry based platform provided by Pivotal Web Services.

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A cloud native solution for dynamic auto scaling of MME in LTE

Cited by 20 publications

References 7 publications

SDN-Based Network Slicing Mechanism for a Scalable 4G/5G Core Network: A Kubernetes Approach

SDN-Based Network Slicing Mechanism for a Scalable 4G/5G Core Network: A Kubernetes Approach

Nervion

SABER: An Infrastructure-Agnostic Benchmark Tool for Elasticity Evaluation on Cloud Foundry Based Platforms

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