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Main Authors: Finarelli, Laura, Ni, Maoquan, Meo, Michela, Dressler, Falko, Rizzo, Gianluca
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.19130
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author Finarelli, Laura
Ni, Maoquan
Meo, Michela
Dressler, Falko
Rizzo, Gianluca
author_facet Finarelli, Laura
Ni, Maoquan
Meo, Michela
Dressler, Falko
Rizzo, Gianluca
contents This paper introduces a novel analytical framework for evaluating energy-efficient, QoS-aware network-sharing strategies in cellular networks. Leveraging stochastic geometry, our framework enables the systematic assessment of network performance across a range of sharing paradigms, including both conventional single-operator scenarios and advanced hybrid strategies that enable full integration and cooperation among multiple mobile network operators. Our framework incorporates diverse user densities, rate requirements, and energy consumption models to ensure comprehensive analysis. Applying our results to real-world datasets from French mobile network operators, we demonstrate that hybrid network sharing can yield substantial energy savings, up to $35\%$, while maintaining quality of service. Furthermore, our results allow us to characterizing how the benefits of network sharing vary as a function of the geographical and functional characteristics of the deployment area. These findings highlight the potential of collaborative sharing strategies to enhance operational efficiency and sustainability in next-generation cellular networks.
format Preprint
id arxiv_https___arxiv_org_abs_2508_19130
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Sharing is Caring: Analysis of Hybrid Network Sharing Strategies for Energy Efficient Multi-Operator Cellular Systems
Finarelli, Laura
Ni, Maoquan
Meo, Michela
Dressler, Falko
Rizzo, Gianluca
Networking and Internet Architecture
This paper introduces a novel analytical framework for evaluating energy-efficient, QoS-aware network-sharing strategies in cellular networks. Leveraging stochastic geometry, our framework enables the systematic assessment of network performance across a range of sharing paradigms, including both conventional single-operator scenarios and advanced hybrid strategies that enable full integration and cooperation among multiple mobile network operators. Our framework incorporates diverse user densities, rate requirements, and energy consumption models to ensure comprehensive analysis. Applying our results to real-world datasets from French mobile network operators, we demonstrate that hybrid network sharing can yield substantial energy savings, up to $35\%$, while maintaining quality of service. Furthermore, our results allow us to characterizing how the benefits of network sharing vary as a function of the geographical and functional characteristics of the deployment area. These findings highlight the potential of collaborative sharing strategies to enhance operational efficiency and sustainability in next-generation cellular networks.
title Sharing is Caring: Analysis of Hybrid Network Sharing Strategies for Energy Efficient Multi-Operator Cellular Systems
topic Networking and Internet Architecture
url https://arxiv.org/abs/2508.19130