2018 10th International Conference on Communication Systems &Amp; Networks (COMSNETS) 2018
DOI: 10.1109/comsnets.2018.8328275
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Implementation of relay hopper model for reliable communication of IoT devices in LTE environment through D2D link

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Cited by 10 publications
(4 citation statements)
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“…D2D communications are widely used to relay information and improve local/overall performance by offloading traffic to other devices in the network, extending system coverage, mitigating wireless fading through improving the capture effect and exploiting spatial diversity. Also, reducing transmit power allows us to lower the impact of cross-interference, which helps to improve the network performance, enhance the QoS (improved throughput, reduced latency, and increased reliability) [13][14][15]. In latter researches, and in most of D2D published papers, a great attention is given to the performance enhancement of other technologies by introducing D2D communication (e.g., IoT [13] and Massive MIMO Systems [15]).…”
Section: Related Workmentioning
confidence: 99%
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“…D2D communications are widely used to relay information and improve local/overall performance by offloading traffic to other devices in the network, extending system coverage, mitigating wireless fading through improving the capture effect and exploiting spatial diversity. Also, reducing transmit power allows us to lower the impact of cross-interference, which helps to improve the network performance, enhance the QoS (improved throughput, reduced latency, and increased reliability) [13][14][15]. In latter researches, and in most of D2D published papers, a great attention is given to the performance enhancement of other technologies by introducing D2D communication (e.g., IoT [13] and Massive MIMO Systems [15]).…”
Section: Related Workmentioning
confidence: 99%
“…Also, reducing transmit power allows us to lower the impact of cross-interference, which helps to improve the network performance, enhance the QoS (improved throughput, reduced latency, and increased reliability) [13][14][15]. In latter researches, and in most of D2D published papers, a great attention is given to the performance enhancement of other technologies by introducing D2D communication (e.g., IoT [13] and Massive MIMO Systems [15]). In our article, we discuss the importance of strategically selecting the best RAN (i.e., either cellular or D2D) according to the network status, in a way to improve the devices experienced QoS.…”
Section: Related Workmentioning
confidence: 99%
“…In the following, we shed the light on the research efforts in the literature that investigated resources sharing in D2D networks from different perspectives, various performance metrics, and different applications [1], [4], [6], [10]- [13], [19]- [21], [23], [29]- [32]. A single cell with one UE and one D2D pair is considered in [10], where the eNB performs optimal mode selection to maximize the sumthroughput under power and rate constraints.…”
Section: Notationsmentioning
confidence: 99%
“…In [14] the authors propose to combine M2M with D2D to benefit from low transmit power and then to enable efficient resource sharing. Moreover, in [15], D2D communications between IoT devices has been studied focusing on providing connectivity to the maximum number of IoT devices. To improve reliability of high-rate millimeter-wave (mmWave) data connections, D2D-enabled collaborative caching at the wireless edge was shown to constitute a promising solution for augmenting system-level performance and improving data acquisition reliability [16].…”
Section: Introductionmentioning
confidence: 99%