云环境下基于混合元启发式算法的多目标任务调度

IF 0.6 Q4 COMPUTER SCIENCE, THEORY & METHODS Multiagent and Grid Systems Pub Date : 2022-08-30 DOI:10.3233/mgs-220218
P. Neelakantan, N. Yadav
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引用次数: 1

摘要

云计算在按使用付费的基础上获得了按需服务的巨大普及。然而,单个数据中心在提供服务方面受到限制,因为它没有无限的资源容量,主要是在需求高峰时间。通常,公有云中虚拟机(VM)的数量更多;然而,安全并没有得到保证。而在安全性较高的私有云中,虚拟机数量有限。因此,在任务调度中考虑安全级别对于安全处理来说仍然是非常重要的。本文旨在为云环境下多目标约束下的最优任务调度提供优化策略。因此,所提出的最优任务分配框架考虑了执行时间、风险概率和任务优先级等目标。为此,本文引入了一种新的混合优化算法,即Clan - Updated Seagull optimization (CUSO)算法,该算法是大象放牧优化算法(EHO)和海鸥优化算法(SOA)的概念融合。最后,根据某些绩效指标对拟议工作的绩效进行评估,而不是其他传统模型。
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Multi objective task scheduling based on hybrid metaheuristic algorithm for cloud environment
Cloud computing is gaining a huge popularity for on-demand services on a pay-per-use basis. However, single data centre is restricted in offering the services, as it does not have unlimited resource capacity mostly in the peak demand time. Generally, the count of Virtual Machines (VM) is more in public cloud; still, the security is not ensured. In contrast, the VMs are limited in private cloud with high security. So, the consideration of security levels in task scheduling is remains to be more critical for secured processing. This works intends to afford the optimization strategies for optimal task scheduling with multi-objective constraints in cloud environment. Accordingly, the proposed optimal task allocation framework considers the objectives such as execution time, risk probability, and task priority. For this, a new hybrid optimization algorithm known as Clan Updated Seagull Optimization (CUSO) algorithm is introduced in this work, which is the conceptual blending of Elephant Herding Optimization (EHO) and Seagull Optimization Algorithm (SOA). Finally, the performance of proposed work is evaluated over other conventional models with respect to certain performance measures.
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来源期刊
Multiagent and Grid Systems
Multiagent and Grid Systems COMPUTER SCIENCE, THEORY & METHODS-
CiteScore
1.50
自引率
0.00%
发文量
13
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