物联网启用基于雾的计算与深度学习模型,以增加资源分配

B. Laxmaiah, Balamurugan Easwaran, H. P. Sultana, D. Praveenadevi, Likitha Sai Katragadda
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引用次数: 0

摘要

雾计算环境下现有的资源分配机制无法在网络环境下实现资源的最优分配。因为,这些机制无法分配来自物联网设备的日益增长的用户数据。因此,有必要对一个系统进行建模,使其能够基于可用资源处理任务。本文解释了一种基于物联网的雾计算,用于使用深度学习计算分配资源。深度学习模型以有效的方式进行训练、测试和验证,以便在用户物联网数据发送存储和处理时在雾环境中分配任务。实验验证表明,在用户计算环境中分配任务可以提高网络吞吐量,减少损失。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Iot Enabled Fog Based Computing with Deep Learning Models to Increase The Allocation of Resource
The existing resource allocation mechanism in fog computing environment fails to allocate optimal resources in the network environment. Since, these mechanism fails to allocate increasing user data from the internet of things devices. It is hence necessary to model a system that enables processing of task based on the resource available. The paper explains an internet of things based fog computing for allocation of resources using deep learning computations. The deep learning model is trained, tested and validated in an efficient manner to allocate the task in fog environment when user IoT data is sent for storage and processing. The experimental validation shows increased network throughput and reduced losses while a task is allocated in the user computing environment.
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