Cellular network offloading through Drone Cooperation

Gatien Roujanski; Michel Marot; Hossam Afifi; Adel Mounir

doi:10.1109/LCN58197.2023.10223353

Cellular network offloading through Drone Cooperation

Gatien Roujanski, Michel Marot, Hossam Afifi, Adel Mounir

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Base station (BS) capacity for cellular networks is fixed and therefore cannot be easily adapted to support temporary high demands due to unusual traffic (demonstration, sales, competitions, etc.). Unmanned Ariel Vehicle (UAV)/drone can be used as an additional temporary bandwidth (BW) provider capable of covering multiple cells. Two placement approaches are investigated to optimize UAV deployment for this purpose. The first adopts a rule based approach without cooperation: we place UAVs in the cells where the exceeding demand is the highest, allowing each UAV to only serve a single cell at a time. In the second algorithm, relying on the Knapsack problem, we design a solution where UAVs cooperate by sharing a portion of their available BW with neighbouring cells in order to cover all the demand with the lowest possible amount of drones. Their performance is compared using two months of real dataset from the Milan Cellular Network provided by Telecom Italia.

Original language	English
Title of host publication	Proceedings of the 48th IEEE Conference on Local Computer Networks , LCN 2023
Editors	Eyuphan Bulut, Florian Tschorsch, Kanchana Thilakarathna
Publisher	IEEE Computer Society
ISBN (Electronic)	9798350300734
DOIs	https://doi.org/10.1109/LCN58197.2023.10223353
Publication status	Published - 1 Jan 2023
Event	48th IEEE Conference on Local Computer Networks , LCN 2023 - Daytona Beach, United States Duration: 2 Oct 2023 → 5 Oct 2023

Publication series

Name	Proceedings - Conference on Local Computer Networks, LCN

Conference

Conference	48th IEEE Conference on Local Computer Networks , LCN 2023
Country/Territory	United States
City	Daytona Beach
Period	2/10/23 → 5/10/23

Keywords

Drone
bandwidth
base station
cooperation
drone position

Access to Document

10.1109/LCN58197.2023.10223353

Cite this

Roujanski, G., Marot, M., Afifi, H., & Mounir, A. (2023). Cellular network offloading through Drone Cooperation. In E. Bulut, F. Tschorsch, & K. Thilakarathna (Eds.), Proceedings of the 48th IEEE Conference on Local Computer Networks , LCN 2023 (Proceedings - Conference on Local Computer Networks, LCN). IEEE Computer Society. https://doi.org/10.1109/LCN58197.2023.10223353

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title = "Cellular network offloading through Drone Cooperation",

abstract = "Base station (BS) capacity for cellular networks is fixed and therefore cannot be easily adapted to support temporary high demands due to unusual traffic (demonstration, sales, competitions, etc.). Unmanned Ariel Vehicle (UAV)/drone can be used as an additional temporary bandwidth (BW) provider capable of covering multiple cells. Two placement approaches are investigated to optimize UAV deployment for this purpose. The first adopts a rule based approach without cooperation: we place UAVs in the cells where the exceeding demand is the highest, allowing each UAV to only serve a single cell at a time. In the second algorithm, relying on the Knapsack problem, we design a solution where UAVs cooperate by sharing a portion of their available BW with neighbouring cells in order to cover all the demand with the lowest possible amount of drones. Their performance is compared using two months of real dataset from the Milan Cellular Network provided by Telecom Italia.",

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Roujanski, G, Marot, M , Afifi, H & Mounir, A 2023, Cellular network offloading through Drone Cooperation. in E Bulut, F Tschorsch & K Thilakarathna (eds), Proceedings of the 48th IEEE Conference on Local Computer Networks , LCN 2023. Proceedings - Conference on Local Computer Networks, LCN, IEEE Computer Society, 48th IEEE Conference on Local Computer Networks , LCN 2023, Daytona Beach, United States, 2/10/23. https://doi.org/10.1109/LCN58197.2023.10223353

Cellular network offloading through Drone Cooperation. / Roujanski, Gatien; Marot, Michel ; Afifi, Hossam et al.
Proceedings of the 48th IEEE Conference on Local Computer Networks , LCN 2023. ed. / Eyuphan Bulut; Florian Tschorsch; Kanchana Thilakarathna. IEEE Computer Society, 2023. (Proceedings - Conference on Local Computer Networks, LCN).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Marot, Michel

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AU - Mounir, Adel

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N2 - Base station (BS) capacity for cellular networks is fixed and therefore cannot be easily adapted to support temporary high demands due to unusual traffic (demonstration, sales, competitions, etc.). Unmanned Ariel Vehicle (UAV)/drone can be used as an additional temporary bandwidth (BW) provider capable of covering multiple cells. Two placement approaches are investigated to optimize UAV deployment for this purpose. The first adopts a rule based approach without cooperation: we place UAVs in the cells where the exceeding demand is the highest, allowing each UAV to only serve a single cell at a time. In the second algorithm, relying on the Knapsack problem, we design a solution where UAVs cooperate by sharing a portion of their available BW with neighbouring cells in order to cover all the demand with the lowest possible amount of drones. Their performance is compared using two months of real dataset from the Milan Cellular Network provided by Telecom Italia.

AB - Base station (BS) capacity for cellular networks is fixed and therefore cannot be easily adapted to support temporary high demands due to unusual traffic (demonstration, sales, competitions, etc.). Unmanned Ariel Vehicle (UAV)/drone can be used as an additional temporary bandwidth (BW) provider capable of covering multiple cells. Two placement approaches are investigated to optimize UAV deployment for this purpose. The first adopts a rule based approach without cooperation: we place UAVs in the cells where the exceeding demand is the highest, allowing each UAV to only serve a single cell at a time. In the second algorithm, relying on the Knapsack problem, we design a solution where UAVs cooperate by sharing a portion of their available BW with neighbouring cells in order to cover all the demand with the lowest possible amount of drones. Their performance is compared using two months of real dataset from the Milan Cellular Network provided by Telecom Italia.

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ER -

Cellular network offloading through Drone Cooperation

Abstract

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Keywords

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