Deep Reinforcement Learning for Edge Service Placement in Softwarized Industrial Cyber-Physical System.

IF 11.7 1区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS IEEE Transactions on Industrial Informatics Pub Date : 2021-08-01 DOI:10.1109/tii.2020.3041713

Yixue Hao, Min Chen, Hamid Gharavi, Yin Zhang, Kai Hwang

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引用次数: 28

Abstract

Future industrial cyber-physical system (CPS) devices are expected to request a large amount of delay-sensitive services that need to be processed at the edge of a network. Due to limited resources, service placement at the edge of the cloud has attracted significant attention. Although there are many methods of design schemes, the service placement problem in industrial CPS has not been well studied. Furthermore, none of existing schemes can optimize service placement, workload scheduling, and resource allocation under uncertain service demands. To address these issues, we first formulate a joint optimization problem of service placement, workload scheduling, and resource allocation in order to minimize service response delay. We then propose an improved deep Q-network (DQN)-based service placement algorithm. The proposed algorithm can achieve an optimal resource allocation by means of convex optimization where the service placement and workload scheduling decisions are assisted by means of DQN technology. The experimental results verify that the proposed algorithm, compared with existing algorithms, can reduce the average service response time by 8-10%.

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软件工业信息物理系统中边缘服务放置的深度强化学习。

未来的工业网络物理系统(CPS)设备预计将请求大量需要在网络边缘处理的延迟敏感服务。由于资源有限，服务放置在云的边缘引起了极大的关注。虽然有许多设计方案的方法，但工业CPS中的服务安置问题还没有得到很好的研究。此外，现有的方案都不能在不确定的服务需求下优化服务布局、工作负载调度和资源分配。为了解决这些问题，我们首先制定了服务放置、工作负载调度和资源分配的联合优化问题，以最小化服务响应延迟。然后，我们提出了一种改进的基于深度q网络(DQN)的服务放置算法。该算法通过凸优化实现资源的最优分配，其中DQN技术辅助服务布局和工作负载调度决策。实验结果表明，与现有算法相比，该算法可将平均服务响应时间缩短8-10%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Industrial Informatics 工程技术-工程：工业

CiteScore

24.10

自引率

8.90%

发文量

1202

审稿时长

5.1 months

期刊介绍： The IEEE Transactions on Industrial Informatics is a multidisciplinary journal dedicated to publishing technical papers that connect theory with practical applications of informatics in industrial settings. It focuses on the utilization of information in intelligent, distributed, and agile industrial automation and control systems. The scope includes topics such as knowledge-based and AI-enhanced automation, intelligent computer control systems, flexible and collaborative manufacturing, industrial informatics in software-defined vehicles and robotics, computer vision, industrial cyber-physical and industrial IoT systems, real-time and networked embedded systems, security in industrial processes, industrial communications, systems interoperability, and human-machine interaction.