通过强化学习对边缘细粒度微服务部署和路由进行延迟感知优化

IF 6.7 2区 计算机科学 Q1 ENGINEERING, MULTIDISCIPLINARY
Kai Peng;Jintao He;Jialu Guo;Yuan Liu;Jianwen He;Wei Liu;Menglan Hu
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引用次数: 0

摘要

微服务对互联网应用的发展产生了深远的影响。与此同时,移动终端用户请求数量的不断增长使得微服务之间的通信变得异常复杂,严重影响了移动边缘计算的用户服务体验质量。因此,有必要对微服务部署和请求路由进行联合优化,以减轻服务器压力,提高大规模 MEC 应用的整体性能。然而,现有研究大多将微服务部署和请求路由作为两个孤立的问题进行研究,忽略了微服务之间的依赖关系。本文重点研究了请求和多实例处理问题的数据依赖关系,然后将微服务部署和请求路由联合问题表述为复杂约束条件下的整数非线性程序和队列优化模型。针对这一问题,我们提出了一种基于细粒度强化学习的算法,名为奖励记忆塑造深度确定性策略梯度(RMS $\_$ DDPG)。此外,我们还在行动者网络和关键网络中引入了长短期记忆(LSTM)块,使行动具有记忆性。最后,我们的实验证明,与四种基线算法相比,我们的算法在延迟目标、负载平衡和算法鲁棒性方面更胜一筹。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Delay-Aware Optimization of Fine-Grained Microservice Deployment and Routing in Edge via Reinforcement Learning
Microservices have exerted a profound impact on the development of internet applications. Meanwhile, the growing number of mobile terminal user requests has made the communication between microservices extremely complex, significantly impacting the quality of user service experience in mobile edge computing. Therefore, the joint optimization of microservice deployment and request routing is necessary to alleviate server pressure and enhance overall performance of large-scaled MEC applications. However, most existing work studies the microservice deployment and request routing as two isolated problems and neglects the dependencies between microservices. This paper focuses on the data dependency relationship of request and multi-instance processing problem, and then formulate the joint problem of microservice deployment and request routing as an integer nonlinear program and queuing optimization model under complex constraints. To address this problem, we propose a fine-grained reinforcement learning-based algorithm named Reward Memory Shaping Deep Deterministic Policy Gradient (RMS $\_$ DDPG). Furthermore, we introduce the Long Short-Term Memory (LSTM) block into the actor network and critical network to make actions memorable. Finally, our experiments demonstrate that our algorithm is more superior in terms of delay target, load balancing and algorithm robustness compared with four baseline algorithms.
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来源期刊
IEEE Transactions on Network Science and Engineering
IEEE Transactions on Network Science and Engineering Engineering-Control and Systems Engineering
CiteScore
12.60
自引率
9.10%
发文量
393
期刊介绍: The proposed journal, called the IEEE Transactions on Network Science and Engineering (TNSE), is committed to timely publishing of peer-reviewed technical articles that deal with the theory and applications of network science and the interconnections among the elements in a system that form a network. In particular, the IEEE Transactions on Network Science and Engineering publishes articles on understanding, prediction, and control of structures and behaviors of networks at the fundamental level. The types of networks covered include physical or engineered networks, information networks, biological networks, semantic networks, economic networks, social networks, and ecological networks. Aimed at discovering common principles that govern network structures, network functionalities and behaviors of networks, the journal seeks articles on understanding, prediction, and control of structures and behaviors of networks. Another trans-disciplinary focus of the IEEE Transactions on Network Science and Engineering is the interactions between and co-evolution of different genres of networks.
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