• Corpus ID: 235293943

Resource allocation for D2D-Based AMI Communications Underlaying LTE Cellular Networks

@article{Esmat2021ResourceAF,
  title={Resource allocation for D2D-Based AMI Communications Underlaying LTE Cellular Networks},
  author={Haitham H. Esmat and Mahmoud M. Elmesalawy and Ibrahim I. Ibrahim},
  journal={ArXiv},
  year={2021},
  volume={abs/2106.00782}
}
Smart meters are utilized to transmit the consumption information to the metering data management system for observing and management in smart grid advanced metering infrastructure systems. In the meantime, for efficient utilization for spectrum, Device-to-Device (D2D) communications underlaying LTE networks are a promising wireless communication technology for advanced metering infrastructure which supporting a technique for reusing the same radio resources (RRs) of LTE networks. Therefore, we… 

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References

SHOWING 1-10 OF 28 REFERENCES
D2D Communications for Enabling Internet of Things Underlaying LTE Cellular Networks
TLDR
Simulation results showed that the proposed method can be used to provides an efficient D2D-based IoT connectivity underlaying LTE cellular networks with outstanding performance in terms of access rate and achieved network throughput gain.
LAA-based LTE and ZigBee coexistence for unlicensed-band smart grid communications
The advent of smart grid introduces abundant number of smart meters which require bidirectional reliable communication. The deployment of advanced metering infrastructure (AMI) in smart grid networks…
LTE radio resource management for real-time smart meter reading in the smart grid
  • E. Yaacoub, A. Kadri
  • Computer Science
    2015 IEEE International Conference on Communication Workshop (ICCW)
  • 2015
TLDR
The paper aims to answer the question of whether long term evolution and/or LTE-Advanced networks are able to support automatic meter reading (AMR) in advanced metering infrastructures (AMI) without overloading the cellular base stations (BSs).
Resource allocation and dynamic power control for D2D communication underlaying uplink multi-cell networks
TLDR
This work proposes a resource allocation scheme and dynamic power control for D2D communication underlaying uplink cellular network and proposes a heuristic resource pairing algorithm based on overall interference minimization, which achieves efficient performance compared with existing methods.
Distance-based resource allocation scheme for device-to-device communications underlaying cellular networks
TLDR
A method to properly choose a cellular user that shares radio resource with D2D users in the uplink to mitigate the interference from the cellular user to the D1D receivers and results show that by applying this method the reliability of D2d communication improves significantly without degrading the performance of the cellular connection.
Resource Sharing Optimization for Device-to-Device Communication Underlaying Cellular Networks
TLDR
The results show that by proper resource management, D2D communication can effectively improve the total throughput without generating harmful interference to cellular networks.
Joint channel selection and optimal power allocation for multi-cell D2D communications underlaying cellular networks
TLDR
A joint channel assignment and power allocation algorithm is proposed, which addresses the intra-cell and inter-cell interference management problems for D2D communication underlaying cellular network.
D2D communication as an underlay to next generation cellular systems with resource management and interference avoidance
  • G. Swetha, G. R. Murthy
  • Computer Science
    2017 International Conference on Wireless Communications, Signal Processing and Networking (WiSPNET)
  • 2017
TLDR
The system performance is optimized to achieve maximum throughput in a multi-user (both cellular and D2D users) environment reusing the available resources and an algorithm is applied to reduce the complexity.
Cellular Communications for Smart Grid Neighborhood Area Networks: A Survey
TLDR
This survey identifies the limitations of LTE and provides a comprehensive review of the most relevant proposed architectural and protocol enhancements for the communication infrastructure associated with smart grid NANs that can be found in the literature to date.
Resource Allocation and Interference Management for D2D-Enabled DL/UL Decoupled Het-Nets
TLDR
In this paper, resource allocation and interference mitigation are investigated for heterogeneous networks where the lowest tier consists of device-to-device (D2D) cells and a novel concatenated bi-partite matching (CBM) method is proposed for joint SB assignment (SA) and resource block allocation (RA) of cellular UEs.
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