Real-time energy harvesting aided scheduling in UAV-assisted D2D networks relying on deep reinforcement learning
Real-time energy harvesting aided scheduling in UAV-assisted D2D networks relying on deep reinforcement learning
Unmanned aerial vehicle (UAV)-assisted device-to-device (D2D) communications can be deployed flexibly thanks to UAVs’ agility. By exploiting the direct D2D interaction supported by UAVs, both the user experience and network performance can be substantially enhanced at public events. However, the continuous moving of D2D users, limited energy and flying time of UAVs are impediments to their applications in real-time. To tackle this issue, we propose a novel model based on deep reinforcement learning in order to find the optimal solution for the energy-harvesting time scheduling in UAV-assisted D2D communications. To make the system model more realistic, we assume that the UAV flies around a central point, the D2D users move continuously with random walk model and the channel state information encountered during each time slot is randomly time-variant. Our numerical results demonstrate that the proposed schemes outperform the existing solutions. The associated energy efficiency game can be solved in less than one millisecond by an off-the-shelf processor using trained neural networks. Hence our deep reinforcement learning techniques are capable of solving real-time resource allocation problems in UAV-assisted wireless networks.
3638 - 3648
Nguyen, Khoi Khac
f6b4b72c-d404-4cb0-a472-95d78d3b90f5
Vien, Ngo Anh
62d65457-e15b-416b-8438-b19d869279ef
Nguyen, Long D.
58957780-b947-4f9a-a973-7b2305f2d048
Le, Minh-Tuan
239ea2fa-aaf2-41a7-b433-195a452839eb
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Duong, Trung Q.
406d80a2-b57f-4955-85aa-c5bc5a236b04
Nguyen, Khoi Khac
f6b4b72c-d404-4cb0-a472-95d78d3b90f5
Vien, Ngo Anh
62d65457-e15b-416b-8438-b19d869279ef
Nguyen, Long D.
58957780-b947-4f9a-a973-7b2305f2d048
Le, Minh-Tuan
239ea2fa-aaf2-41a7-b433-195a452839eb
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Duong, Trung Q.
406d80a2-b57f-4955-85aa-c5bc5a236b04
Nguyen, Khoi Khac, Vien, Ngo Anh, Nguyen, Long D., Le, Minh-Tuan, Hanzo, Lajos and Duong, Trung Q.
(2020)
Real-time energy harvesting aided scheduling in UAV-assisted D2D networks relying on deep reinforcement learning.
IEEE Access, 9, .
(doi:10.1109/ACCESS.2020.3046499).
Abstract
Unmanned aerial vehicle (UAV)-assisted device-to-device (D2D) communications can be deployed flexibly thanks to UAVs’ agility. By exploiting the direct D2D interaction supported by UAVs, both the user experience and network performance can be substantially enhanced at public events. However, the continuous moving of D2D users, limited energy and flying time of UAVs are impediments to their applications in real-time. To tackle this issue, we propose a novel model based on deep reinforcement learning in order to find the optimal solution for the energy-harvesting time scheduling in UAV-assisted D2D communications. To make the system model more realistic, we assume that the UAV flies around a central point, the D2D users move continuously with random walk model and the channel state information encountered during each time slot is randomly time-variant. Our numerical results demonstrate that the proposed schemes outperform the existing solutions. The associated energy efficiency game can be solved in less than one millisecond by an off-the-shelf processor using trained neural networks. Hence our deep reinforcement learning techniques are capable of solving real-time resource allocation problems in UAV-assisted wireless networks.
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09303363
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More information
Accepted/In Press date: 17 December 2020
e-pub ahead of print date: 22 December 2020
Identifiers
Local EPrints ID: 446480
URI: http://eprints.soton.ac.uk/id/eprint/446480
ISSN: 2169-3536
PURE UUID: 12aa49cc-d98f-41d8-a8ee-5138e725823e
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Date deposited: 11 Feb 2021 17:30
Last modified: 18 Mar 2024 02:36
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Contributors
Author:
Khoi Khac Nguyen
Author:
Ngo Anh Vien
Author:
Long D. Nguyen
Author:
Minh-Tuan Le
Author:
Lajos Hanzo
Author:
Trung Q. Duong
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