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Deep neural network-based application partitioning and scheduling for hospitals and medical enterprises using IoT assisted mobile fog cloud

Abdullah Lakhan, Qurat-ul-ain Mastoi, Mohamed Elhoseny, Muhammad Suleman Memon, Mazin Abed Mohammed

2021Enterprise Information Systems97 citationsDOI

Abstract

These days, fog-cloud based healthcare application partitioning techniques have been growing progressively. However, existing static fog-cloud based application partitioning methods are static and cannot adopt dynamic changes in the dynamic environment (e.g., where network and computing nodes have resource value variation) during the execution process. This study devises a Deep Neural Networks Energy Cost-Efficient Partitioning and Task Scheduling (DNNECTS) algorithm framework which consists of the following components: application partitioning, task sequencing, and scheduling. Experimental results show the suggested methods in terms of energy consumption and the applications' cost in the dynamic environment.

Topics & Concepts

Computer scienceCloud computingScheduling (production processes)Distributed computingEnergy consumptionArtificial neural networkDynamic priority schedulingReal-time computingArtificial intelligenceComputer networkOperating systemEngineeringQuality of serviceElectrical engineeringOperations managementIoT and Edge/Fog ComputingCloud Computing and Resource ManagementAdvanced Computing and Algorithms
Deep neural network-based application partitioning and scheduling for hospitals and medical enterprises using IoT assisted mobile fog cloud | Litcius