在雾模式下,利用序列覆盖cat和覆盖粒子群优化加强数据迁移和安全性的研究

T. Saravanan , S. Saravanakumar
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引用次数: 16

摘要

近年来,由于物联网(IoT)设备产生的大量数据,雾和移动边缘计算迅速增长。它在最终用户物联网环境中提供各种服务,但调度效率低下,导致比云计算更严重的延迟。在本研究中,我们提出了一种数据迁移过程,该过程优于雾计算范式中的延迟、响应时间和负载平衡率指标。采用序列覆盖猫群优化(SCCSO)和序列覆盖粒子群优化(SCPSO),通过在云通信存储中使用适当的虚拟机(vm)来锁定高使用率的机器,并为低使用率的机器提供服务,可以减少复制和集成数据的数量。这使我们能够在雾环境中有效地获取资源。经过在iFogsim环境下的测试,协议在响应时间、调度时间、负载均衡率和时延方面都优于其他调度算法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing investigations in data migration and security using sequence cover cat and cover particle swarm optimization in the fog paradigm

In recent years, fog and mobile edge computing have grown rapidly due to the large amount of data generated by the Internet of Thing (IoT) devices. It provides a variety of services within the end user IoT environment, but suffers from inefficient scheduling, which results in more significant delays than cloud computing. In this research we propose a data migration procedure that beats the metrics of delay, response time, and load balancing rate in the fog computing paradigm. It is possible to reduce the amount of replicated and integrated data by using Sequence Cover Cat Swarm Optimization (SCCSO) and Sequence Cover Particle Swarm Optimization (SCPSO) by using appropriate Virtual machines (VMs) which lock highly used machines and give service to low used machines in cloud communication storage.; this allows us to obtain resources efficiently in the fog environment. After being tested in the iFogsim climate, The protocols performed better in the iFogsim climate in terms of response time, scheduling time load balancing rate and delay than the other scheduling algorithms.

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