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Main Authors: Al-habob, Ahmed A., Dobre, Octavia A., Jing, Yindi
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.00658
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author Al-habob, Ahmed A.
Dobre, Octavia A.
Jing, Yindi
author_facet Al-habob, Ahmed A.
Dobre, Octavia A.
Jing, Yindi
contents This paper introduces an unmanned aerial vehicle (UAV)-enabled network slicing problem to provide content delivery, sensing data gathering, and mobile edge computing (MEC) services. Three tenants provide services to their clients by sharing a common infrastructure of a set of UAVs. The content delivery tenant needs to guarantee that each of its clients (users) receives the required content, the sensing tenant aims to gather an adequate amount of uncorrelated data, and the MEC tenant provides computing service to its clients. An energy consumption minimization framework is considered to meet the tenants' requirements by optimizing the number of deployed UAVs, the deployment location of each UAV, the transmit power of each deployed UAV, the user-UAV association, and the transmission power as well as the computing resources of each UAV. Taking into account the spatial correlation among the sensing users, a subset of these users is activated to gather the required sensing information. A solution approach technique inherited from graph theory is presented, in which the Lagrange approach derives the transmission power and computing resource allocation expressions. Simulation results illustrate that the proposed framework significantly reduces the total energy consumption.
format Preprint
id arxiv_https___arxiv_org_abs_2512_00658
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Energy-Efficient Aerial Network Slicing for Computation Offloading, Data Gathering, and Content Delivery
Al-habob, Ahmed A.
Dobre, Octavia A.
Jing, Yindi
Signal Processing
This paper introduces an unmanned aerial vehicle (UAV)-enabled network slicing problem to provide content delivery, sensing data gathering, and mobile edge computing (MEC) services. Three tenants provide services to their clients by sharing a common infrastructure of a set of UAVs. The content delivery tenant needs to guarantee that each of its clients (users) receives the required content, the sensing tenant aims to gather an adequate amount of uncorrelated data, and the MEC tenant provides computing service to its clients. An energy consumption minimization framework is considered to meet the tenants' requirements by optimizing the number of deployed UAVs, the deployment location of each UAV, the transmit power of each deployed UAV, the user-UAV association, and the transmission power as well as the computing resources of each UAV. Taking into account the spatial correlation among the sensing users, a subset of these users is activated to gather the required sensing information. A solution approach technique inherited from graph theory is presented, in which the Lagrange approach derives the transmission power and computing resource allocation expressions. Simulation results illustrate that the proposed framework significantly reduces the total energy consumption.
title Energy-Efficient Aerial Network Slicing for Computation Offloading, Data Gathering, and Content Delivery
topic Signal Processing
url https://arxiv.org/abs/2512.00658