Bi-objective web service composition problem in multi-cloud environment: a bi-objective time-varying particle swarm optimisation algorithm

IF 1.7 4区 计算机科学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Journal of Experimental & Theoretical Artificial Intelligence Pub Date : 2021-03-04 DOI:10.1080/0952813X.2020.1725652
Mirsaeid Hosseini Shirvani
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引用次数: 28

Abstract

ABSTRACT Cloud computing became an inevitable information technology industry. Despite its several plus points such as economy of scale and rapid elasticity, it suffers from vendor lock-in, resource limitation and cybersecurity attacks in which it leads business discontinuity or even business failure. Multi-cloud, on the other hand, can be trustable paradigm to obviate obstacles such as aforesaid unpleasant features of a single cloud. One of the biggest challenges is to know which cloud is commensurate with user’s business process with regards to security objectives. To this end, the new method is presented to quantify the amount of cloud security risk (CSR) in regards to user’s business process. Therefore, in this paper, the web service composition problem is formulated to bi-objective optimisation problem with service cost and multi-cloud risk viewpoints in ever-increasing multi-cloud environment (MCE) in which each provider has its variable pricing policy and different security level. It is obviously an NP-Hard problem. To solve the combinatorial problem, we develop a bi-objective time-varying particle swarm optimisation (BOTV-PSO) algorithm. The parameters are tuned based on elapsed time so a good balance between exploration and exploitation is achieved. To illustrate the effectiveness of proposed algorithm, we defined several scenarios and compared the performance of proposed algorithm with multi-objective GA-based (MOGA) optimiser, a single objective genetic algorithm (SOGA) that only optimises cost function and neglects CSR, and multi-objective simulated annealing algorithm (MOSA). The experimental results showed the superiority of proposed BOTV-PSO against other approaches in terms of convergence, diversity, fitness, performance, and even scalability.
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多云环境下双目标web服务组合问题:一种双目标时变粒子群优化算法
云计算成为信息技术产业发展的必然趋势。尽管它有一些优点,如规模经济和快速弹性,但它受到供应商锁定,资源限制和网络安全攻击的影响,导致业务中断甚至业务失败。另一方面,多云可以是一种可靠的范例,以避免诸如上述单个云的令人不快的特性等障碍。最大的挑战之一是了解哪个云与用户的业务流程在安全目标方面是相称的。为此,提出了一种量化用户业务流程中云安全风险(CSR)数量的新方法。因此,本文将web服务组合问题表述为在不断增长的多云环境(MCE)中,每个提供商都有其可变的定价策略和不同的安全级别,同时考虑服务成本和多云风险的双目标优化问题。这显然是NP-Hard问题。为了解决组合问题,我们提出了一种双目标时变粒子群优化算法(BOTV-PSO)。参数是根据经过的时间进行调整的,因此在勘探和开发之间实现了良好的平衡。为了说明所提算法的有效性,我们定义了几种场景,并将所提算法与基于多目标遗传算法(MOGA)优化器、仅优化成本函数而忽略CSR的单目标遗传算法(SOGA)和多目标模拟退火算法(MOSA)的性能进行了比较。实验结果表明,BOTV-PSO算法在收敛性、多样性、适应度、性能以及可扩展性等方面都优于其他算法。
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来源期刊
CiteScore
6.10
自引率
4.50%
发文量
89
审稿时长
>12 weeks
期刊介绍: Journal of Experimental & Theoretical Artificial Intelligence (JETAI) is a world leading journal dedicated to publishing high quality, rigorously reviewed, original papers in artificial intelligence (AI) research. The journal features work in all subfields of AI research and accepts both theoretical and applied research. Topics covered include, but are not limited to, the following: • cognitive science • games • learning • knowledge representation • memory and neural system modelling • perception • problem-solving
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