A Novel Framework of Federated and Distributed Machine Learning for Resource Provisioning in 5G and Beyond using Mobile-Edge SCBS

The future needs of the telecommunication system lie in deploying a heterogeneous ultra-dense network with varied topographical use cases. However, this increase in ultra-denseness in 5g and beyond poses several challenges in resource allocation, requiring an accurate learning-based prediction. This...

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Main Authors: Gorla, Praveen, V, Keerthivasan, Chamola, Vinay, Guizani, Mohsen
Format: Text
Language:unknown
Published: Digital.Commons@MBZUAI 2022
Subjects:
5G mobile communication systems
Base stations
Forecasting
Machine learning
Mobile edge computing
Radio access networks
Resource allocation
Artificial Intelligence and Robotics
Computer Sciences
DML
Online Access:https://dclibrary.mbzuai.ac.ae/mlfp/282
https://ieeexplore.ieee.org/document/9896994
id ftmbzunivai:oai:dclibrary.mbzuai.ac.ae:mlfp-1281
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spelling ftmbzunivai:oai:dclibrary.mbzuai.ac.ae:mlfp-1281 2023-05-15T16:01:33+02:00 A Novel Framework of Federated and Distributed Machine Learning for Resource Provisioning in 5G and Beyond using Mobile-Edge SCBS Gorla, Praveen V, Keerthivasan Chamola, Vinay Guizani, Mohsen 2022-09-21T07:00:00Z https://dclibrary.mbzuai.ac.ae/mlfp/282 https://ieeexplore.ieee.org/document/9896994 unknown Digital.Commons@MBZUAI https://dclibrary.mbzuai.ac.ae/mlfp/282 https://ieeexplore.ieee.org/document/9896994 Machine Learning Faculty Publications 5G mobile communication systems Base stations Forecasting Machine learning Mobile edge computing Radio access networks Resource allocation Artificial Intelligence and Robotics Computer Sciences text 2022 ftmbzunivai 2022-12-24T19:14:13Z The future needs of the telecommunication system lie in deploying a heterogeneous ultra-dense network with varied topographical use cases. However, this increase in ultra-denseness in 5g and beyond poses several challenges in resource allocation, requiring an accurate learning-based prediction. This paper proposes a novel framework using Federated Learning (FL) and Distributed Machine Learning (DML) for Mobile Edge based resource provisioning to User Equipment (UEs). This work formulates the correlation-based novel procedures between UEs in applying Federated and Distributed Machine Learning through Kolmogorov tests for predicting SNR. The correlations of the distribution obtained through the Kolmogorov test check the extent of Independent and Identically Distributed (IID) -ness between modelled data and evaluate the global model for resource provisioning accuracy. Further, correlation-based DML is also employed to balance the computational load of a mobile edge, which acts as a small cell base station and a computational node. In this approach, we account for correlation-based resource predictive model training to balance the uniform computational load by data distribution methods among the neighbouring mobile Edge SCBS nodes for computation. Together with both DML and FL, we create a novel Framework for resource prediction with minimal time for achieving high accuracy without over-fitting. Text DML eCommons Repository for MBZUAI Scholarship & Research (Mohamed bin Zayed University of Artificial Intelligence)
institution Open Polar
collection eCommons Repository for MBZUAI Scholarship & Research (Mohamed bin Zayed University of Artificial Intelligence)
op_collection_id ftmbzunivai
language unknown
topic 5G mobile communication systems
Base stations
Forecasting
Machine learning
Mobile edge computing
Radio access networks
Resource allocation
Artificial Intelligence and Robotics
Computer Sciences
spellingShingle 5G mobile communication systems
Base stations
Forecasting
Machine learning
Mobile edge computing
Radio access networks
Resource allocation
Artificial Intelligence and Robotics
Computer Sciences
Gorla, Praveen
V, Keerthivasan
Chamola, Vinay
Guizani, Mohsen
A Novel Framework of Federated and Distributed Machine Learning for Resource Provisioning in 5G and Beyond using Mobile-Edge SCBS
topic_facet 5G mobile communication systems
Base stations
Forecasting
Machine learning
Mobile edge computing
Radio access networks
Resource allocation
Artificial Intelligence and Robotics
Computer Sciences
description The future needs of the telecommunication system lie in deploying a heterogeneous ultra-dense network with varied topographical use cases. However, this increase in ultra-denseness in 5g and beyond poses several challenges in resource allocation, requiring an accurate learning-based prediction. This paper proposes a novel framework using Federated Learning (FL) and Distributed Machine Learning (DML) for Mobile Edge based resource provisioning to User Equipment (UEs). This work formulates the correlation-based novel procedures between UEs in applying Federated and Distributed Machine Learning through Kolmogorov tests for predicting SNR. The correlations of the distribution obtained through the Kolmogorov test check the extent of Independent and Identically Distributed (IID) -ness between modelled data and evaluate the global model for resource provisioning accuracy. Further, correlation-based DML is also employed to balance the computational load of a mobile edge, which acts as a small cell base station and a computational node. In this approach, we account for correlation-based resource predictive model training to balance the uniform computational load by data distribution methods among the neighbouring mobile Edge SCBS nodes for computation. Together with both DML and FL, we create a novel Framework for resource prediction with minimal time for achieving high accuracy without over-fitting.
format Text
author Gorla, Praveen
V, Keerthivasan
Chamola, Vinay
Guizani, Mohsen
author_facet Gorla, Praveen
V, Keerthivasan
Chamola, Vinay
Guizani, Mohsen
author_sort Gorla, Praveen
title A Novel Framework of Federated and Distributed Machine Learning for Resource Provisioning in 5G and Beyond using Mobile-Edge SCBS
title_short A Novel Framework of Federated and Distributed Machine Learning for Resource Provisioning in 5G and Beyond using Mobile-Edge SCBS
title_full A Novel Framework of Federated and Distributed Machine Learning for Resource Provisioning in 5G and Beyond using Mobile-Edge SCBS
title_fullStr A Novel Framework of Federated and Distributed Machine Learning for Resource Provisioning in 5G and Beyond using Mobile-Edge SCBS
title_full_unstemmed A Novel Framework of Federated and Distributed Machine Learning for Resource Provisioning in 5G and Beyond using Mobile-Edge SCBS
title_sort novel framework of federated and distributed machine learning for resource provisioning in 5g and beyond using mobile-edge scbs
publisher Digital.Commons@MBZUAI
publishDate 2022
url https://dclibrary.mbzuai.ac.ae/mlfp/282
https://ieeexplore.ieee.org/document/9896994
genre DML
genre_facet DML
op_source Machine Learning Faculty Publications
op_relation https://dclibrary.mbzuai.ac.ae/mlfp/282
https://ieeexplore.ieee.org/document/9896994
_version_ 1766397360024322048

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