A Survey on Device-to-Device Communication in Cellular Networks
TLDR
This paper provides a taxonomy based on the D2D communicating spectrum and review the available literature extensively under the proposed taxonomy to provide new insights into the over-explored and under- Explored areas that lead to identify open research problems of D1D communications in cellular networks.Abstract:
Device-to-device (D2D) communications was initially proposed in cellular networks as a new paradigm for enhancing network performance. The emergence of new applications such as content distribution and location-aware advertisement introduced new user cases for D2D communications in cellular networks. The initial studies showed that D2D communications has advantages such as increased spectral efficiency and reduced communication delay. However, this communication mode introduces complications in terms of interference control overhead and protocols that are still open research problems. The feasibility of D2D communications in Long-Term Evolution Advanced is being studied by academia, industry, and standardization bodies. To date, there are more than 100 papers available on D2D communications in cellular networks, but there is no survey on this field. In this paper, we provide a taxonomy based on the D2D communicating spectrum and review the available literature extensively under the proposed taxonomy. Moreover, we provide new insights into the over-explored and under-explored areas that lead us to identify open research problems of D2D communications in cellular networks.read more
Citations
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Journal ArticleDOI
ISHU: Interference Reduction Scheme for D2D Mobile Groups Using Uplink NOMA
TL;DR: In this article , an interference reduction scheme for device-to-device (D2D) mobile groups using Uplink NOMA (ISHU) is proposed to maximize the throughput of the network.
Proceedings ArticleDOI
Reducing the complexity of Resource Allocation for underlaying Device-to-Device communications
TL;DR: A Minimum Knapsack-based Interference-aware Resource Allocation (MIKIRA) approach is proposed to show that a channel sharing approach can be used to increase system sum rate, minimize the interference both at the evolved Node B (eNB) and the receiver of the D2D pairs, and most importantly achieve a good signal quality at the eNB in lower time complexity in an LTE cellular network.
Proceedings ArticleDOI
System-level simulations for multi-hop D2D communications overlay LTE networks
TL;DR: This work performs system-level simulation studies on multi-hop D2D communications overlay LTE networks, i.e., D2 d2D links are given dedicated cellular resources in LTE networks but there still exist intra-cell interference and inter- cell interference from other D1D transmissions.
Journal ArticleDOI
Interference Minimization Resource Allocation for V2X Communication Underlaying 5G Cellular Networks
TL;DR: Simulation results show that the proposed algorithm can not only ensure the minimal transmission rate of VUs but also further improve the CUs’ channel capacity under the premise of guaranteeing the QoS of theCUs.
References
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