Enabling Remote Health-Caring Utilizing IoT Concept over LTE-Femtocell Networks

As the enterprise of the "Internet of Things" is rapidly gaining widespread acceptance, sensors are being deployed in an unrestrained manner around the world to make efficient use of this new technological evolution. A recent survey has shown that sensor deployments over the past decade ha...

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Veröffentlicht in:	PloS one 2016-05, Vol.11 (5), p.e0155077-e0155077
Hauptverfasser:	Hindia, M N, Rahman, T A, Ojukwu, H, Hanafi, E B, Fattouh, A
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Computer and Information Sciences Computer networks Data processing Electrical engineering Growth rate Health Health care Humans Internet Internet of Things LTE (Telecommunications) Medicine and Health Sciences Methyltestosterone Mobile Applications Mobile communication systems Monitoring, Physiologic - methods Physical Sciences Research and Analysis Methods Scheduling Sensors Social Sciences Technology application Wireless communications Wireless networks
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creator	Hindia, M N Rahman, T A Ojukwu, H Hanafi, E B Fattouh, A
description	As the enterprise of the "Internet of Things" is rapidly gaining widespread acceptance, sensors are being deployed in an unrestrained manner around the world to make efficient use of this new technological evolution. A recent survey has shown that sensor deployments over the past decade have increased significantly and has predicted an upsurge in the future growth rate. In health-care services, for instance, sensors are used as a key technology to enable Internet of Things oriented health-care monitoring systems. In this paper, we have proposed a two-stage fundamental approach to facilitate the implementation of such a system. In the first stage, sensors promptly gather together the particle measurements of an android application. Then, in the second stage, the collected data are sent over a Femto-LTE network following a new scheduling technique. The proposed scheduling strategy is used to send the data according to the application's priority. The efficiency of the proposed technique is demonstrated by comparing it with that of well-known algorithms, namely, proportional fairness and exponential proportional fairness.
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subjects	Algorithms Computer and Information Sciences Computer networks Data processing Electrical engineering Growth rate Health Health care Humans Internet Internet of Things LTE (Telecommunications) Medicine and Health Sciences Methyltestosterone Mobile Applications Mobile communication systems Monitoring, Physiologic - methods Physical Sciences Research and Analysis Methods Scheduling Sensors Social Sciences Technology application Wireless communications Wireless networks
title	Enabling Remote Health-Caring Utilizing IoT Concept over LTE-Femtocell Networks
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