Reinforcement Learning-based Traffic Engineering for QoS Provisioning and Load Balancing

Minghao Ye; Yang Hu; Junjie Zhang; Zehua Guo; H. Jonathan Chao

doi:10.1109/IWQoS57198.2023.10188762

Reinforcement Learning-based Traffic Engineering for QoS Provisioning and Load Balancing

Minghao Ye, Yang Hu, Junjie Zhang, Zehua Guo^*, H. Jonathan Chao

^*此作品的通讯作者

自动化学院

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

4 引用（Scopus）

摘要

Emerging applications pose different Quality of Service (QoS) requirements for the network, where Traffic Engineering (TE) plays an important role in QoS provisioning by carefully selecting routing paths and adjusting traffic split ratios on routing paths. To accommodate diverse QoS requirements of traffic flows under network dynamics, TE usually periodically computes an optimal routing strategy and updates a significant number of forwarding entries, which introduces considerable network operation management overhead. In this paper, we propose QoS-RL, a Reinforcement Learning (RL)-based TE solution for QoS provisioning and load balancing with low management overhead and service disruption during routing updates. Given the traffic matrices that represent the traffic demands of high and low priority flows, QoS-RL can intelligently select and update only a few destination-based forwarding entries to satisfy the QoS requirements of high priority traffic while maintaining good load balancing performance by rerouting a small portion of low priority traffic. Extensive simulation results on four real-world network topologies demonstrate that QoS-RL provides at least 95.5 % of optimal end-to-end delay performance on average for high priority flows, and also achieves above 90 % of optimal load balancing performance in most cases by updating only 10% of destination-based forwarding entries.

源语言	英语
主期刊名	2023 IEEE/ACM 31st International Symposium on Quality of Service, IWQoS 2023
出版商	Institute of Electrical and Electronics Engineers Inc.
ISBN（电子版）	9798350399738
DOI	https://doi.org/10.1109/IWQoS57198.2023.10188762
出版状态	已出版 - 2023
活动	31st IEEE/ACM International Symposium on Quality of Service, IWQoS 2023 - Orlando, 美国期限: 19 6月 2023 → 21 6月 2023

出版系列

姓名	IEEE International Workshop on Quality of Service, IWQoS
卷	2023-June
ISSN（印刷版）	1548-615X

会议

会议	31st IEEE/ACM International Symposium on Quality of Service, IWQoS 2023
国家/地区	美国
市	Orlando
时期	19/06/23 → 21/06/23

访问文件

10.1109/IWQoS57198.2023.10188762

其它文件与链接

链接到 Scopus 的出版物

引用此

Ye, M., Hu, Y., Zhang, J., Guo, Z., & Chao, H. J. (2023). Reinforcement Learning-based Traffic Engineering for QoS Provisioning and Load Balancing. 在 2023 IEEE/ACM 31st International Symposium on Quality of Service, IWQoS 2023 (IEEE International Workshop on Quality of Service, IWQoS; 卷 2023-June). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/IWQoS57198.2023.10188762

@inproceedings{09d53af776d047ed8ab2b06fc64ef4e3,

title = "Reinforcement Learning-based Traffic Engineering for QoS Provisioning and Load Balancing",

abstract = "Emerging applications pose different Quality of Service (QoS) requirements for the network, where Traffic Engineering (TE) plays an important role in QoS provisioning by carefully selecting routing paths and adjusting traffic split ratios on routing paths. To accommodate diverse QoS requirements of traffic flows under network dynamics, TE usually periodically computes an optimal routing strategy and updates a significant number of forwarding entries, which introduces considerable network operation management overhead. In this paper, we propose QoS-RL, a Reinforcement Learning (RL)-based TE solution for QoS provisioning and load balancing with low management overhead and service disruption during routing updates. Given the traffic matrices that represent the traffic demands of high and low priority flows, QoS-RL can intelligently select and update only a few destination-based forwarding entries to satisfy the QoS requirements of high priority traffic while maintaining good load balancing performance by rerouting a small portion of low priority traffic. Extensive simulation results on four real-world network topologies demonstrate that QoS-RL provides at least 95.5 % of optimal end-to-end delay performance on average for high priority flows, and also achieves above 90 % of optimal load balancing performance in most cases by updating only 10% of destination-based forwarding entries.",

keywords = "Load Balancing, Management Overhead, Quality of Service, Reinforcement Learning, Traffic Engineering",

author = "Minghao Ye and Yang Hu and Junjie Zhang and Zehua Guo and Chao, {H. Jonathan}",

note = "Publisher Copyright: {\textcopyright} 2023 IEEE.; 31st IEEE/ACM International Symposium on Quality of Service, IWQoS 2023 ; Conference date: 19-06-2023 Through 21-06-2023",

year = "2023",

doi = "10.1109/IWQoS57198.2023.10188762",

language = "English",

series = "IEEE International Workshop on Quality of Service, IWQoS",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

booktitle = "2023 IEEE/ACM 31st International Symposium on Quality of Service, IWQoS 2023",

address = "United States",

}

Ye, M, Hu, Y, Zhang, J, Guo, Z & Chao, HJ 2023, Reinforcement Learning-based Traffic Engineering for QoS Provisioning and Load Balancing. 在 2023 IEEE/ACM 31st International Symposium on Quality of Service, IWQoS 2023. IEEE International Workshop on Quality of Service, IWQoS, 卷 2023-June, Institute of Electrical and Electronics Engineers Inc., 31st IEEE/ACM International Symposium on Quality of Service, IWQoS 2023, Orlando, 美国, 19/06/23. https://doi.org/10.1109/IWQoS57198.2023.10188762

Reinforcement Learning-based Traffic Engineering for QoS Provisioning and Load Balancing. / Ye, Minghao; Hu, Yang; Zhang, Junjie 等.
2023 IEEE/ACM 31st International Symposium on Quality of Service, IWQoS 2023. Institute of Electrical and Electronics Engineers Inc., 2023. (IEEE International Workshop on Quality of Service, IWQoS; 卷 2023-June).

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

TY - GEN

T1 - Reinforcement Learning-based Traffic Engineering for QoS Provisioning and Load Balancing

AU - Ye, Minghao

AU - Hu, Yang

AU - Zhang, Junjie

AU - Guo, Zehua

AU - Chao, H. Jonathan

PY - 2023

Y1 - 2023

N2 - Emerging applications pose different Quality of Service (QoS) requirements for the network, where Traffic Engineering (TE) plays an important role in QoS provisioning by carefully selecting routing paths and adjusting traffic split ratios on routing paths. To accommodate diverse QoS requirements of traffic flows under network dynamics, TE usually periodically computes an optimal routing strategy and updates a significant number of forwarding entries, which introduces considerable network operation management overhead. In this paper, we propose QoS-RL, a Reinforcement Learning (RL)-based TE solution for QoS provisioning and load balancing with low management overhead and service disruption during routing updates. Given the traffic matrices that represent the traffic demands of high and low priority flows, QoS-RL can intelligently select and update only a few destination-based forwarding entries to satisfy the QoS requirements of high priority traffic while maintaining good load balancing performance by rerouting a small portion of low priority traffic. Extensive simulation results on four real-world network topologies demonstrate that QoS-RL provides at least 95.5 % of optimal end-to-end delay performance on average for high priority flows, and also achieves above 90 % of optimal load balancing performance in most cases by updating only 10% of destination-based forwarding entries.

AB - Emerging applications pose different Quality of Service (QoS) requirements for the network, where Traffic Engineering (TE) plays an important role in QoS provisioning by carefully selecting routing paths and adjusting traffic split ratios on routing paths. To accommodate diverse QoS requirements of traffic flows under network dynamics, TE usually periodically computes an optimal routing strategy and updates a significant number of forwarding entries, which introduces considerable network operation management overhead. In this paper, we propose QoS-RL, a Reinforcement Learning (RL)-based TE solution for QoS provisioning and load balancing with low management overhead and service disruption during routing updates. Given the traffic matrices that represent the traffic demands of high and low priority flows, QoS-RL can intelligently select and update only a few destination-based forwarding entries to satisfy the QoS requirements of high priority traffic while maintaining good load balancing performance by rerouting a small portion of low priority traffic. Extensive simulation results on four real-world network topologies demonstrate that QoS-RL provides at least 95.5 % of optimal end-to-end delay performance on average for high priority flows, and also achieves above 90 % of optimal load balancing performance in most cases by updating only 10% of destination-based forwarding entries.

KW - Load Balancing

KW - Management Overhead

KW - Quality of Service

KW - Reinforcement Learning

KW - Traffic Engineering

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U2 - 10.1109/IWQoS57198.2023.10188762

DO - 10.1109/IWQoS57198.2023.10188762

M3 - Conference contribution

AN - SCOPUS:85167796404

T3 - IEEE International Workshop on Quality of Service, IWQoS

BT - 2023 IEEE/ACM 31st International Symposium on Quality of Service, IWQoS 2023

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 31st IEEE/ACM International Symposium on Quality of Service, IWQoS 2023

Y2 - 19 June 2023 through 21 June 2023

ER -

Reinforcement Learning-based Traffic Engineering for QoS Provisioning and Load Balancing

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