A Data-driven base station sleeping strategy based on traffic prediction
A Data-driven base station sleeping strategy based on traffic prediction
Due to the rapidly increasing number of base stations (BSs) in the operational cellular networks, their energy consumption is escalating. In this paper, we propose an intelligent data-driven BS sleeping mechanism relying on a wireless traffic prediction model that measures the BSs' capacity in different regions. Firstly, a spatio-temporal cellular traffic prediction model is proposed, where a multi-graph convolutional network (MGCN) is developed to capture the associated spatial features. Furthermore, a multi-channel long short-term memory (LSTM) solution involving hourly, daily and weekly periodic data is used to capture the relevant temporal features. Secondly, the capacities of macro-cell BSs (MBSs) and small-cell BSs (SBSs) having different environment characteristics are modeled, where both clustering and transfer learning algorithms are adopted for quantifying the traffic supported by the MBSs and SBSs. Finally, an optimal BS sleeping strategy is proposed for minimizing the network's power consumption. Experimental results show that the proposed MGCN-LSTM model outperforms the existing models in terms of its cellular traffic prediction accuracy, and the proposed BS sleeping strategy using an approximated non-linear model of the associated capacity function achieves near-maximal energy-saving at a modest complexity.
BS sleeping, Cellular networks, Convolution, Convolutional neural networks, Energy consumption, Predictive models, Real-time systems, Roads, cellular traffic prediction, graph convolutional network, transfer learning
Lin, Jiansheng
ff769218-8af8-40eb-8437-842f16059014
Chen, Youjia
9daeaa05-b641-476a-883f-fa92da02b000
Zheng, Haifeng
48f47dc4-5064-4e88-94e9-347393d05037
Ding, Ming
e9c86fb2-c1f5-4720-be85-0b56b8f75b3a
Cheng, Peng
1e49aef0-36ef-4cda-af2a-9753881419c9
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Lin, Jiansheng
ff769218-8af8-40eb-8437-842f16059014
Chen, Youjia
9daeaa05-b641-476a-883f-fa92da02b000
Zheng, Haifeng
48f47dc4-5064-4e88-94e9-347393d05037
Ding, Ming
e9c86fb2-c1f5-4720-be85-0b56b8f75b3a
Cheng, Peng
1e49aef0-36ef-4cda-af2a-9753881419c9
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Lin, Jiansheng, Chen, Youjia, Zheng, Haifeng, Ding, Ming, Cheng, Peng and Hanzo, Lajos
(2021)
A Data-driven base station sleeping strategy based on traffic prediction.
IEEE Transactions on Network Science and Engineering.
(doi:10.1109/TNSE.2021.3109614).
(In Press)
Abstract
Due to the rapidly increasing number of base stations (BSs) in the operational cellular networks, their energy consumption is escalating. In this paper, we propose an intelligent data-driven BS sleeping mechanism relying on a wireless traffic prediction model that measures the BSs' capacity in different regions. Firstly, a spatio-temporal cellular traffic prediction model is proposed, where a multi-graph convolutional network (MGCN) is developed to capture the associated spatial features. Furthermore, a multi-channel long short-term memory (LSTM) solution involving hourly, daily and weekly periodic data is used to capture the relevant temporal features. Secondly, the capacities of macro-cell BSs (MBSs) and small-cell BSs (SBSs) having different environment characteristics are modeled, where both clustering and transfer learning algorithms are adopted for quantifying the traffic supported by the MBSs and SBSs. Finally, an optimal BS sleeping strategy is proposed for minimizing the network's power consumption. Experimental results show that the proposed MGCN-LSTM model outperforms the existing models in terms of its cellular traffic prediction accuracy, and the proposed BS sleeping strategy using an approximated non-linear model of the associated capacity function achieves near-maximal energy-saving at a modest complexity.
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Accepted/In Press date: 29 August 2021
Keywords:
BS sleeping, Cellular networks, Convolution, Convolutional neural networks, Energy consumption, Predictive models, Real-time systems, Roads, cellular traffic prediction, graph convolutional network, transfer learning
Identifiers
Local EPrints ID: 453222
URI: http://eprints.soton.ac.uk/id/eprint/453222
ISSN: 2327-4697
PURE UUID: 56964a76-484c-4a68-bead-c91fde3e7ec0
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Date deposited: 11 Jan 2022 17:39
Last modified: 17 Mar 2024 02:35
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Contributors
Author:
Jiansheng Lin
Author:
Youjia Chen
Author:
Haifeng Zheng
Author:
Ming Ding
Author:
Peng Cheng
Author:
Lajos Hanzo
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