Device-to-Device Communication Overlaying Two-Hop Multi-Channel Uplink Cellular Networks

Li, Jiajia; Kato, Nei

doi:10.1145/2746285.2746311

Cited by 41 publications

(10 citation statements)

References 12 publications

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“…A new scheme is proposed by Liu et al, in which eNodeB and users communicate mutually within single-hop method or dual-hop method in downlink [29] and uplink [30] D2D overlay cellular networks. They determined range probability and data packet rate under distinct parameter setup, and determined that D2D communication can substantially improve vehicular network execution.…”

Section: State Of the Artmentioning

confidence: 99%

An Efficient Cluster Based Resource Management Scheme and its Performance Analysis for V2X Networks

et al. 2020

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As the demand for VANETs data transmission continues to increase, the defined cellular band becomes a bottleneck to meet the demands for all vehicle-to-everything (V2X) users. To deal with this problem, an efficient cluster based resource management scheme and its performance analysis for V2X networks is suggested to discover exceptional needs for various types of VANETs connections, namely vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) connections, and to enhance the efficiency of cellular user with respect to sum ratio, packet received ratio and average throughput for V2I connections whereas maintaining constancy for each V2V link. To deal with the fast channel deviations because of high mobility, we developed an efficient cluster based resource management technique to attain spectrum sharing and power control that relies on large scale fading. In addition, we have also examined the resource management problem of VANETs and V2X users to minimize data communication effects. Primarily, the total cellular sum ratio of every V2I connections is employed as an analysis target to enhance the throughput and to minimize end-to-end latency of the whole V2I link. Moreover, efficient resource management and cluster head selection algorithms are developed which grant the optimum resource distribution. According to our results, the proposed scheme with efficient resource management improves cellular user sum rate, average packet received ratio and throughput in comparison with existing schemes.INDEX TERMS Cluster, cellular-V2X, vehicle-to-vehicle communication and resource management.

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Section: State Of the Artmentioning

confidence: 99%

An Efficient Cluster Based Resource Management Scheme and its Performance Analysis for V2X Networks

et al. 2020

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“…Meanwhile, D2D relay mode and direct communication mode selection is also considered. Liu et al [24] adopted a D2D two-hop relay to help mobile users get access to neighbouring base stations. In this paper, tasks on MUEs in the two-tier HetNet are offloaded to SCBs instead of the far away MCB to conquer the high channel fading and low signal obstacles of MUEs.…”

Section: A Non-incentive Based Schemesmentioning

confidence: 99%

TARCO: Two-Stage Auction for D2D Relay Aided Computation Resource Allocation in HetNet

Chen

Zhang

et al. 2019

IEEE Trans. Serv. Comput.

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I. ABSTRACTIn heterogeneous cellular network, task scheduling for computation offloading is one of the biggest challenges. Most works focus on alleviating heavy burden of macro base stations by moving the computation tasks on macro-cell user equipment (MUE) to remote cloud or small-cell base stations. But the selfishness of network users is seldom considered. Motivated by the cloud edge computing, this paper provides incentive for task transfer from macro cell users to small cell base stations. The proposed incentive scheme utilizes small cell user equipment to provide relay service. The problem of computation offloading is modelled as a two-stage auction, in which the remote MUEs with common social character can form a group and then buy the computation resource of small-cell base stations with the relay of small cell user equipment. A two-stage auction scheme named TARCO is contributed to maximize utilities for both sellers and buyers in the network. The truthful, individual rationality and budget balance of the TARCO are also proved in this paper. In addition, two algorithms are proposed to further refine TARCO on the social welfare of the network. Extensive simulation results demonstrate that, TARCO is better than random algorithm by about 104.90% in terms of average utility of MUEs, while the performance of TARCO is further improved up to 28.75% and 17.06% by the proposed two algorithms, respectively.

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“…The distance between two zones can be derived from [ 49 ]. We adopt the power law propagation model in [ 50 ]. It models path-loss for both of cellular and D2D links.…”

Section: Proposed Schemementioning

confidence: 99%

Fractional Frequency Reuse Scheme for Device to Device Communication Underlaying Cellular on Wireless Multimedia Sensor Networks

Kim

Noh

et al. 2018

Sensors

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Wireless multimedia sensor networks (WMSNs) have been improved with the increase of multimedia data. In WMSNs, a centralization problem can occur because of large-size multimedia data. It is necessary to consider device-to-device (D2D) communication. We focus on D2D WMSN based on cellular networks. Sensors in the D2D WMSN can non-orthogonally use a cellular link, which is a wireless communication channel between a sensor and an aggregator, and a D2D link, which is the channel between sensors. As a result, it has more complex interference environments than an ordinary system. Therefore, it is a key factor to manage the varying inter-cell interference effectively for throughput improvement. We propose an interference mitigation scheme that can be applied to D2D WMSN. In the proposed scheme, a cell is separated into six zones and orthogonal frequency is allocated to each zone for cellular links. The frequencies allocated to cellular links are reused by D2D links of neighboring zones. The simulation results show that the throughput of the proposed scheme increases two times compared to a static frequency allocation scheme.

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Device-to-Device Communication Overlaying Two-Hop Multi-Channel Uplink Cellular Networks

Cited by 41 publications

References 12 publications

An Efficient Cluster Based Resource Management Scheme and its Performance Analysis for V2X Networks

An Efficient Cluster Based Resource Management Scheme and its Performance Analysis for V2X Networks

TARCO: Two-Stage Auction for D2D Relay Aided Computation Resource Allocation in HetNet

Fractional Frequency Reuse Scheme for Device to Device Communication Underlaying Cellular on Wireless Multimedia Sensor Networks

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