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
Green NOMA With Multiple Interference Cancellation (MIC) Using Sector-Based Resource Allocation
TL;DR: A novel non-orthogonal multiple access (NOMA) enabled device-to-device (D2D) communication fifth generation cellular network, practicing sectorization is considered, which introduces the concept of multiple interference cancellation (MIC), which stimulates the phenomenon of cancellation of interference levels in the network, involving optimal resource allocation.
Journal ArticleDOI
Multi-Channel Resource Allocation Toward Ergodic Rate Maximization for Underlay Device-to-Device Communications
TL;DR: This paper proposes two dynamic power allocation algorithms: a Lagrange dual-based algorithm that is optimal but with a high computational complexity and a low-complexity heuristic algorithm based on dynamic time averaging that is applicable to both uplink and downlink cellular spectrum sharing.
Proceedings ArticleDOI
A caching-based incentive mechanism for cooperative data offloading
TL;DR: This paper proposes a centralized caching-based incentive mechanism, which stimulates mobile users to cache and forward contents for MNOs, and proposes a payment determination algorithm, which satisfies the properties of individual rationality and truthfulness.
Journal ArticleDOI
A Distributed Political Coalition Formation Framework for Multi-Relay Selection in Cooperative Wireless Networks
TL;DR: This paper proposes a distributed ruling coalition formation algorithm that offers a network sum-rate performance/stability tradeoff through formation of political parties of relays, which also reduces complexity and communication overheads.
Journal ArticleDOI
Vector Quantization and Clustered Key Mapping for Channel-Based Secret Key Generation
TL;DR: A general SKG procedure that utilizes sample and quantizer selection techniques to avoid the so-called cell-boundary problem and a clustered key mapping scheme that assigns each secret key to multiple quantization cells in different clusters is proposed to maintain high conditional key entropy.
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