2017
DOI: 10.1109/mce.2016.2614421
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A Feasible Cellular Internet of Things: Enabling Edge Computing and the IoT in Dense Futuristic Cellular Networks

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Cited by 34 publications
(16 citation statements)
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“…Therefore in this paper, we are proposing a MEC based edge computing approach to satisfy the intrinsic technological requisites demanded by the novel contact-less and remote medical procedures for treating COVID-19 patients within a medical facility. This work extends the reach of MEC towards adaptability established by [8], assures the claims proposed by [9], [10] to mitigate COVID-19, and validates the utilization of edge computing in IoT systems as conceptualized in [11], [12] with MEC; while improving the feasibility of smart health solutions proposed in [2], [13], [14]. The Section II introduces three futuristic use cases that effectively establish contact-less operation, while the methodology to realize these initiatives with MEC is presented in Section III.…”
Section: Introductionsupporting
confidence: 75%
“…Therefore in this paper, we are proposing a MEC based edge computing approach to satisfy the intrinsic technological requisites demanded by the novel contact-less and remote medical procedures for treating COVID-19 patients within a medical facility. This work extends the reach of MEC towards adaptability established by [8], assures the claims proposed by [9], [10] to mitigate COVID-19, and validates the utilization of edge computing in IoT systems as conceptualized in [11], [12] with MEC; while improving the feasibility of smart health solutions proposed in [2], [13], [14]. The Section II introduces three futuristic use cases that effectively establish contact-less operation, while the methodology to realize these initiatives with MEC is presented in Section III.…”
Section: Introductionsupporting
confidence: 75%
“…Edge computing enables computation capability at the edge of any networks, thus, reducing the transmission latency. Energy efficient and near-instant communications and networking schemes, driven by cellular techniques [8], [9], are the state-of-the-art digital transmission techniques for the future IIoT with the guarantee of a wide range of coverage, ultra-high data rate, and ultra-low latency.…”
Section: Cutting-edge Techniquesmentioning
confidence: 99%
“…Cellular Internet of Things (C-IoT) expands the prior concept by portraying procedures of having several IoT devices performing their data exchanges through mobile network infrastructures without causing usage overload [14] [15], and to make that possible, technologies such as Narrowband IoT (NB-IoT) and others can be used in order to fulfill this emerging need. Due to the characteristics of these IoT devices (mainly cost, size and energy consumption), there is a market for a massive adoption of such components for several types of applications, such as smart homes, e-health, among others [16]. With that, as also referred in [16], it is important to ensure that when such devices need to communicate their readings, there are no disruptions while doing so.…”
Section: A Iot and Cellular Iotmentioning
confidence: 99%
“…Due to the characteristics of these IoT devices (mainly cost, size and energy consumption), there is a market for a massive adoption of such components for several types of applications, such as smart homes, e-health, among others [16]. With that, as also referred in [16], it is important to ensure that when such devices need to communicate their readings, there are no disruptions while doing so.…”
Section: A Iot and Cellular Iotmentioning
confidence: 99%