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Towards Energy-Efficient Framework for IoT Big Data Healthcare Solutions

Chong Feng, Muhammad Abdullah Adnan, Arshad Ahmad, Ayaz Ullah, Habib Ullah Khan

2020Scientific Programming25 citationsDOIOpen Access PDF

Abstract

The aim of the Internet of things (IoT) is to bring every object (wearable sensors, healthcare sensors, cameras, home appliances, smart phones, etc.) online. These different objects generate huge data which consequently lead to the need of requirements of efficient storage and processing. Cloud computing is an emerging technology to overcome this problem. However, there are some applications (healthcare) which need to process data in real time to improve its performance and require low latency and delay. Fog computing is one of the promising solutions which facilitate healthcare domain in terms of reducing the delay multihop data communication, distributing resource demands, and promoting service flexibility. In this study, a fog-based IoT healthcare framework is proposed in order to minimize the energy consumption of the fog nodes. Experimental results reveal that the performance of the proposed framework is efficient in terms of network delay and energy usage. Furthermore, the authors discussed and suggested important services of big data infrastructure which need to be present in fog devices for the analytics of healthcare big data.

Topics & Concepts

Computer scienceCloud computingBig dataWearable computerFlexibility (engineering)Efficient energy useHealth careEnergy consumptionInternet of ThingsSmart objectsWearable technologyProcess (computing)AnalyticsLow latency (capital markets)Data scienceDistributed computingComputer securityComputer networkEmbedded systemData miningEngineeringEconomicsStatisticsElectrical engineeringOperating systemMathematicsEconomic growthIoT and Edge/Fog ComputingContext-Aware Activity Recognition SystemsBlockchain Technology Applications and Security
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