HOGWO: a fog inspired optimized load balancing approach using hybridized grey wolf algorithm

Debashreet Das, Sayak Sengupta, Shashank Mouli Satapathy, Deepanshu Saini
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Abstract

A distributed archetype, the concept of fog computing relocates the storage, computation, and services closer to the network’s edge, where the data is generated. Despite these advantages, the users expect proper load management in the fog environment. This has expanded the Internet of Things (IoT) field, increasing user requests for the fog computing layer. Given the growth, Virtual Machines (VMs) in the fog layer become overburdened due to user demands. In the fog layer, it is essential to evenly and fairly distribute the workload among the segment’s current VMs. Numerous load-management strategies for fog environments have been implemented up to this point. This study aims to create a hybridized and optimized approach for load management (HOGWO), in which the population set is generated using the Invasive Weed Optimisation (IWO) algorithm. The rest of the functional part is done with the help of the Grey Wolf Optimization (GWO) algorithm. This process ensures cost optimization, increased performance, scalability, and adaptability to any domain, such as healthcare, vehicular traffic management, etc. Also, the efficiency of the enhanced approach is analyzed in various scenarios to provide a more optimal solution set. The proposed approach is well illustrated and outperforms the existing algorithms, such as Particle Swarm Optimization (PSO), Genetic Algorithm (GA), etc., in terms of cost and load management. It was found that more than 97% jobs were completed on time, according to the testing data, and the hybrid technique outperformed all other approaches in terms of fluctuation of load and makespan.

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HOGWO:使用混合灰狼算法的雾启发优化负载平衡方法
作为一种分布式原型,雾计算的概念是将存储、计算和服务迁移到更靠近数据产生地的网络边缘。尽管有这些优势,用户仍希望在雾环境中进行适当的负载管理。这拓展了物联网(IoT)领域,增加了用户对雾计算层的要求。由于用户需求的增长,雾计算层中的虚拟机(VM)变得不堪重负。在雾计算层,必须在网段的现有虚拟机之间均匀、公平地分配工作负载。到目前为止,已有许多针对雾环境的负载管理策略得到了实施。本研究旨在创建一种混合优化的负载管理方法(HOGWO),其中使用入侵杂草优化(IWO)算法生成群体集。其余功能部分则借助灰狼优化(GWO)算法完成。这一过程确保了成本优化、性能提升、可扩展性以及对任何领域(如医疗保健、车辆交通管理等)的适应性。此外,还在各种场景中分析了增强型方法的效率,以提供更优化的解决方案集。所提出的方法很好地说明了这一点,并且在成本和负载管理方面优于粒子群优化(PSO)、遗传算法(GA)等现有算法。测试数据表明,97% 以上的工作都能按时完成,而且混合技术在负载波动和工期方面优于所有其他方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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