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The internet of things for healthcare: optimising e-health system availability in the fog and cloud

Patrícia Takako Endo, Theo Lynn, Francisco Airton Silva, Djamel Sadok, Judith Kelner, Guto Leoni Santos, Demis Gomes

2020International Journal of Computational Science and Engineering13 citationsDOI

Abstract

E-health systems can be used to monitor people in real-time, offering a range of multimedia-based health services, at the same time reducing the cost since cheaper devices can be used to compose it. However, any downtime, mainly in the case of critical health services, can result in patient health problems and in the worst case, loss of life. In this paper, we use an interdisciplinary approach combining stochastic models with optimisation algorithms to analyse how failures impact e-health monitoring system availability. We propose surrogate models to estimate the availability of e-health monitoring systems that rely on edge, fog, and cloud infrastructures. Then, we apply a multi-objective optimisation algorithm, NSGA-II, to improve system availability considering component costs as constraint. Results suggest that replacing components with more reliable ones is more effective in improving the availability of an e-health monitoring system than adding more redundant components.

Topics & Concepts

DowntimeCloud computingComputer scienceComponent (thermodynamics)Enhanced Data Rates for GSM EvolutionHealth careConstraint (computer-aided design)Risk analysis (engineering)Distributed computingComputer securityReliability engineeringBusinessEngineeringArtificial intelligenceMechanical engineeringOperating systemEconomicsEconomic growthThermodynamicsPhysicsMobile Health and mHealth ApplicationsIoT and Edge/Fog Computing
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