基于萤火虫优化算法和模糊逻辑的云服务组合

IF 0.7 Q3 COMPUTER SCIENCE, THEORY & METHODS
Wenzhi Wang, Zhanqiao Liu
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引用次数: 1

摘要

云计算包括在互联网上作为服务动态提供虚拟化和可扩展的资源。根据客户的请求,可能会在云环境中交付具有相同功能但非功能特性不同的不同类型的服务,这些服务可能需要组合起来以满足客户的复杂需求。最近的研究集中在将独特的和松散耦合的服务组合到首选系统中。优化后的组合服务由以前存在的单个和简单服务组合而成,以提供最佳的组合服务,从而提高服务质量(QoS)。近年来,云计算推动了多供应云服务组合的快速增长,其中云服务提供商可以同时提供多个服务。服务组合可以满足各种场景下的各种用户需求。多云环境中的组合请求(服务请求)需要位于多个云中的原子服务(服务候选)。服务组合将来自多个云的原子服务组合为单个服务。由于云服务正在快速增长,其服务质量(QoS)变化很大,因此找到必要的服务并将其与质量保证组合在一起是一项越来越具有挑战性的技术任务。提出了一种利用萤火虫优化算法(FOA)和模糊逻辑来平衡多个QoS因素并满足服务组合约束的方法。实验结果表明,该方法在响应时间、可用性和能耗方面都优于现有方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cloud Service Composition using Firefly Optimization Algorithm and Fuzzy Logic
—Cloud computing involves the dynamic provision of virtualized and scalable resources over the Internet as services. Different types of services with the same functionality but different non-functionality features may be delivered in a cloud environment in response to customer requests, which may need to be combined to satisfy the customer's complex requirements. Recent research has focused on combining unique and loosely-coupled services into a preferred system. An optimized composite service consists of formerly existing single and simple services combined to provide an optimal composite service, thereby improving the quality of service (QoS). In recent years, cloud computing has driven the rapid proliferation of multi-provision cloud service compositions, in which cloud service providers can provide multiple services simultaneously. Service composition fulfils a variety of user needs in a variety of scenarios. The composite request (service request) in a multi-cloud environment requires atomic services (service candidates) located in multiple clouds. Service composition combines atomic services from multiple clouds into a single service. Since cloud services are rapidly growing and their Quality of Service (QoS) is widely varying, finding the necessary services and composing them with quality assurances is an increasingly challenging technical task. This paper presents a method that uses the firefly optimization algorithm (FOA) and fuzzy logic to balance multiple QoS factors and satisfy service composition constraints. Experimental results prove that the proposed method outperforms previous ones in terms of response time, availability, and energy consumption.
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来源期刊
CiteScore
2.30
自引率
22.20%
发文量
519
期刊介绍: IJACSA is a scholarly computer science journal representing the best in research. Its mission is to provide an outlet for quality research to be publicised and published to a global audience. The journal aims to publish papers selected through rigorous double-blind peer review to ensure originality, timeliness, relevance, and readability. In sync with the Journal''s vision "to be a respected publication that publishes peer reviewed research articles, as well as review and survey papers contributed by International community of Authors", we have drawn reviewers and editors from Institutions and Universities across the globe. A double blind peer review process is conducted to ensure that we retain high standards. At IJACSA, we stand strong because we know that global challenges make way for new innovations, new ways and new talent. International Journal of Advanced Computer Science and Applications publishes carefully refereed research, review and survey papers which offer a significant contribution to the computer science literature, and which are of interest to a wide audience. Coverage extends to all main-stream branches of computer science and related applications
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