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Autori principali: Salamatmoghadasi, Maryam, Mehrabian, Amir, Yanikomeroglu, Halim, Kaddoum, Georges
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2601.10891
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author Salamatmoghadasi, Maryam
Mehrabian, Amir
Yanikomeroglu, Halim
Kaddoum, Georges
author_facet Salamatmoghadasi, Maryam
Mehrabian, Amir
Yanikomeroglu, Halim
Kaddoum, Georges
contents The rapid growth of radio access networks (RANs) is increasing energy consumption and challenging the sustainability of future systems. We consider a dense-urban vertical heterogeneous network (vHetNet) comprising a high-altitude platform station (HAPS) acting as a super macro base station, a terrestrial macro base station (MBS), and multiple small base stations (SBSs). We propose a HAPS-enhanced cell-switching algorithm that selectively deactivates SBSs based on their traffic load and the capacity and channel conditions of both the MBS and HAPS. The resulting energy-minimization problem, subject to an outage-based quality-of-service (QoS) constraint, is formulated as a mixed-integer nonlinear program and reformulated into a mixed-integer program for efficient solution. Using realistic 3GPP channel models, simulations show substantial energy savings versus All-ON, terrestrial cell switching, and sorting benchmarks. Relative to All-ON, the proposed method reduces power consumption by up to 77% at low loads and about 40% at high loads; a NoQoS variant achieves up to 90% and 47%, respectively. The approach maintains high served-traffic levels and provides a tunable trade-off between power efficiency and outage-based QoS, supporting scalable and sustainable 6G deployments.
format Preprint
id arxiv_https___arxiv_org_abs_2601_10891
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Sustainable Vertical Heterogeneous Networks: A Cell Switching Approach with High Altitude Platform Station
Salamatmoghadasi, Maryam
Mehrabian, Amir
Yanikomeroglu, Halim
Kaddoum, Georges
Systems and Control
The rapid growth of radio access networks (RANs) is increasing energy consumption and challenging the sustainability of future systems. We consider a dense-urban vertical heterogeneous network (vHetNet) comprising a high-altitude platform station (HAPS) acting as a super macro base station, a terrestrial macro base station (MBS), and multiple small base stations (SBSs). We propose a HAPS-enhanced cell-switching algorithm that selectively deactivates SBSs based on their traffic load and the capacity and channel conditions of both the MBS and HAPS. The resulting energy-minimization problem, subject to an outage-based quality-of-service (QoS) constraint, is formulated as a mixed-integer nonlinear program and reformulated into a mixed-integer program for efficient solution. Using realistic 3GPP channel models, simulations show substantial energy savings versus All-ON, terrestrial cell switching, and sorting benchmarks. Relative to All-ON, the proposed method reduces power consumption by up to 77% at low loads and about 40% at high loads; a NoQoS variant achieves up to 90% and 47%, respectively. The approach maintains high served-traffic levels and provides a tunable trade-off between power efficiency and outage-based QoS, supporting scalable and sustainable 6G deployments.
title Sustainable Vertical Heterogeneous Networks: A Cell Switching Approach with High Altitude Platform Station
topic Systems and Control
url https://arxiv.org/abs/2601.10891