User-aware centralized resource allocation in heterogeneous networks. Ornatelli, A., Giuseppi, A., Suraci, V., & Tortorelli, A. 2020.
doi  abstract   bibtex   
In the last two years, in Europe, 5G networks and services proliferated. The integration of 5G networks with other radio access networks is considered one of the key enablers for matching the challenging 5G Quality of Service requirements. In particular, the integration with high throughput satellites promises to increase the network performances in terms of resilience and Quality of Service. The present work addresses this problem and presents a user-aware resource allocation methodology for heterogeneous networks. Said methodology is articulated in two-steps: at first, the Analytical Hierarchy Process is used for deciding the network over which traffic is steered and, then, a Cooperative Game for allocating resources within the network is set up. Simulations are presented for validating the proposed approach. © 2020 IEEE.
@CONFERENCE{Ornatelli2020292,
author={Ornatelli, A. and Giuseppi, A. and Suraci, V. and Tortorelli, A.},
title={User-aware centralized resource allocation in heterogeneous networks},
journal={2020 28th Mediterranean Conference on Control and Automation, MED 2020},
year={2020},
pages={292-298},
doi={10.1109/MED48518.2020.9183080},
art_number={9183080},
scopus={https://www.scopus.com/inward/record.uri?eid=2-s2.0-85092175171&doi=10.1109%2fMED48518.2020.9183080&partnerID=40&md5=061539c42362f98ba414424036f1b3ab},
abstract={In the last two years, in Europe, 5G networks and services proliferated. The integration of 5G networks with other radio access networks is considered one of the key enablers for matching the challenging 5G Quality of Service requirements. In particular, the integration with high throughput satellites promises to increase the network performances in terms of resilience and Quality of Service. The present work addresses this problem and presents a user-aware resource allocation methodology for heterogeneous networks. Said methodology is articulated in two-steps: at first, the Analytical Hierarchy Process is used for deciding the network over which traffic is steered and, then, a Cooperative Game for allocating resources within the network is set up. Simulations are presented for validating the proposed approach. © 2020 IEEE.},
author_keywords={Analytical hierarchy process;  Cooperative differential games;  Multi-connectivity;  Network selection;  Traffic steering},
keywords={Heterogeneous networks;  Quality of service;  Queueing networks;  Radio access networks;  Resource allocation, Analytical Hierarchy Process;  Centralized resource allocation;  Cooperative game;  G-networks;  High throughput;  User-aware, 5G mobile communication systems},
document_type={Conference Paper},
source={Scopus},
}

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