Design and stochastic geometric analysis of an efficient Q-Learning based physical resource block allocation scheme to maximize the spectral efficiency of Device-to-Device overlaid cellular networks

In scenarios, like critical public safety communication networks, On-Scene Available (OSA) user equipment (UE) may be only partially connected with the network infrastructure, e.g., due to physical damages or on-purpose deactivation by the authorities. In this work, we consider multi-hop Device-to-Device (D2D) communication in a hybrid infrastructure where OSA UEs connect to each other in a seamless manner in order to disseminate critical information to a deployed command center. The challenge that we address is to simultaneously keep the OSA UEs alive as long as possible and send the critical information to a final destination (e.g., a command center) as rapidly as possible, while considering the heterogeneous characteristics of the OSA UEs. We propose a dynamic adaptation approach based on machine learning to improve a joint energy-spectral efficiency (ESE). We apply a Q-learning scheme in a hybrid fashion (partially distributed and centralized) in learner agents (distributed OSA UEs) and scheduler agents (remote radio heads or RRHs), for which the next hop selection and RRH selection algorithms are proposed. Our simulation results show that the proposed dynamic adaptation approach outperforms the baseline system by approximately 67% in terms of joint energy-spectral efficiency, wherein the energy efficiency of the OSA UEs benefit from a gain of approximately 30%. Finally, the results show also that our proposed framework with C-RAN reduces latency by approximately 50% w.r.t. the baseline.

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Channel Access and Power Control for Mobile Crowdsourcing in Device-to-Device Underlaid Cellular Networks

Wireless Communications and Mobile Computing ◽

10.1155/2018/7192840 ◽

2018 ◽

Vol 2018 ◽

pp. 1-13 ◽

Cited By ~ 3

Author(s):

Yue Ma ◽

Li Zhou ◽

Zhenghua Gu ◽

Yang Song ◽

Bin Wang

Keyword(s):

Power Control ◽

Cellular Networks ◽

Spectral Efficiency ◽

Cellular Network ◽

Handheld Devices ◽

Channel Access ◽

Mobile Crowdsourcing ◽

Device To Device ◽

Area Spectral Efficiency ◽

The Impact

With the access of a myriad of smart handheld devices in cellular networks, mobile crowdsourcing becomes increasingly popular, which can leverage omnipresent mobile devices to promote the complicated crowdsourcing tasks. Device-to-device (D2D) communication is highly desired in mobile crowdsourcing when cellular communications are costly. The D2D cellular network is more preferable for mobile crowdsourcing than conventional cellular network. Therefore, this paper addresses the channel access and power control problem in the D2D underlaid cellular networks. We propose a novel semidistributed network-assisted power and a channel access control scheme for D2D user equipment (DUE) pieces. It can control the interference from DUE pieces to the cellular user accurately and has low information feedback overhead. For the proposed scheme, the stochastic geometry tool is employed and analytic expressions are derived for the coverage probabilities of both the cellular link and D2D links. We analyze the impact of key system parameters on the proposed scheme. The Pareto optimal access threshold maximizing the total area spectral efficiency is obtained. Unlike the existing works, the performances of the cellular link and D2D links are both considered. Simulation results show that the proposed method can improve the total area spectral efficiency significantly compared to existing schemes.

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SARA: A service-aware resource allocation scheme for device-to-device communication underlaying cellular networks

2014 IEEE Global Communications Conference ◽

10.1109/glocom.2014.7037584 ◽

2014 ◽

Cited By ~ 5

Author(s):

Biwei Chen ◽

Jun Zheng ◽

Yuan Zhang ◽

Hidekazu Murata

Keyword(s):

Resource Allocation ◽

Cellular Networks ◽

Allocation Scheme ◽

Device To Device ◽

Device To Device Communication ◽

Resource Allocation Scheme

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A Survey on Relay Selection in Cooperative Device-to-Device (D2D) Communication in 5G Cellular Networks

Journal of Student Research ◽

10.47611/jsr.vi.580 ◽

2017 ◽

Author(s):

Shamganth K ◽

Said Shafi Abdullah Al-Shabibia

Keyword(s):

Cellular Networks ◽

Spectral Efficiency ◽

Relay Selection ◽

Relay Node ◽

Cooperative Networks ◽

Vital Role ◽

D2d Communication ◽

Destination Node ◽

D2d Communications ◽

Device To Device

Device-to-device (D2D) communications underlayed to a cellular infrastructure has recently been proposed to increase spectrum and energy efficiency. Relay selection plays a vital role in cooperative networks. In D2D communication, if the chosen relay is not the best relay, then the whole communication will not be successful from source node to destination node. Also to choose the optimal relays, if more feedback and time delay exists between the source nodes and relay node then it leads to degradation of spectral efficiency. A survey on the relay selection techniques used with D2D communications and the challenges and design issues associated with the integration of D2D in 5G cellular network is presented.

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Greedy Based Radio Resource Allocation Algorithm with Sectoring Scheme in D2D Underlaying Communication

Journal of Measurements Electronics Communications and Systems ◽

10.25124/jmecs.v7i1.3473 ◽

2020 ◽

Vol 7 (1) ◽

pp. 13

Author(s):

Putu Riyana Paramita ◽

Nachwan Mufti Adriansyah ◽

Vinsensius Sigit Widhi Prabowo

Keyword(s):

Spectral Efficiency ◽

Communication System ◽

Base Station ◽

Radio Resource Allocation ◽

Allocation Scheme ◽

Resource Block ◽

Radio Resource ◽

Resource Allocation Algorithm ◽

Good Energy ◽

Sum Rate

D2D communication is a communication that allows users to communicate without passing through the Base Station (BS). The D2D Underlaying communication system can use the same Resource Block (RB) as the Cellular User Equipment (CUE). Implementing this communication system can ease the burden on BS and can transmit data with higher throughput in low power. However, using RB simultaneously can cause interference and therefore an RB allocation scheme is needed. The algorithm used in the scheduling process of the uplink RB owned by CUE to the D2D pair is the joint greedy algorithm with sectoring scheme. This work used a scenario where the value of the D2D pair are varied. The parameters measured in this simulation were sum-rate, spectral efficiency and fairness. The simulation results show that the joint greedy with sectoring allocation scheme has good energy efficiency and spectral efficiency values of 6.063× 106 bps/watt and 16.982 bps/Hz. On the other hand, the D2D fairness value in the joint greedy with sectoring allocation scheme is 0.886.

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