STACKELBERG GAME EXPLOITATION FOR POWER MINIMIZATION OVER LTE-V MODE 4

Information and Telecommunication Sciences Pub Date : 2020-06-28 DOI:10.20535/2411-2976.12020.71-76

H. Chihi, R. Bouallègue

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引用次数: 1

Abstract

Background. Due to the great increase of accident into roads, vehicular communication becomes the focus of many researchers. Therefore vehicular communication is becoming an active topic of search. That’s why safety driving is the main concern of many researcher to mitigate congestion problems specifically following urban scenario. Due to the requirement of URLLC, we investigate in this paper the importance of power diminishing. In fact, power minimization is an interesting metric due to the requirement of high data rates. Objective. The aim of the paper is to investigate power allocation into LTE-V system following a decentralized scenario. Methods. The idea is to consider a platoon with a set of vehicles interacting together for network resources without the help of ENodeB. Power consumption minimization is a promising solution for interference diminishing since vehicles communicate according to a decentralized way. In this regard the theoretical analysis is based on applying stackelberg game policy for power control in the way to minimize interference. Results. We conclude that stackelberg game policy is a powerful tool for interference and power consumption management. Computer results highlight the efficiency of SK game for power allocation into a decentralized scenario. Conclusions. Vehicular Autonomous communication attracted the attention of many researchers according to increasing number of congestion together with traffic problems. In addition, to ensure better safety we adopt platooning scenario which enables mitigations of many problems such as collisions, congestion. Inter-car communication is an interesting topic of search to ensure safety into-roads. In addition, platooning has the potential to ensure safety with low energy consumption specifically towards urban traffic. In addition, LTE-V is a heuristic solution for vehicular communication where the connectivity is performed in a decentralized context without the requirement of the ENodeB.

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在lte-v模式下实现功率最小化的Stackelberg游戏开发

背景。由于道路交通事故的大量增加，车辆通信成为许多研究者关注的焦点。因此，车载通信成为人们研究的热点。这就是为什么安全驾驶是许多研究者关注的主要问题，以缓解城市场景下的拥堵问题。由于URLLC的要求，本文研究了功率递减的重要性。事实上，由于需要高数据速率，功耗最小化是一个有趣的度量。目标。本文的目的是研究分布式场景下LTE-V系统的功率分配。方法。这个想法是考虑一组车辆在没有ENodeB的帮助下相互作用以获取网络资源。由于车辆以分散的方式通信，因此功耗最小化是减少干扰的一个有希望的解决方案。在这方面的理论分析是基于以最小干扰的方式应用stackelberg博弈策略进行功率控制。结果。我们得出结论，stackelberg博弈策略是干扰和功耗管理的有力工具。计算机结果突出了SK博弈在分散场景下的功率分配效率。结论。随着交通拥堵和交通问题的日益严重，车辆自主通信受到了越来越多研究者的关注。此外，为了确保更好的安全性，我们采用了队列方案，可以缓解许多问题，如碰撞，拥堵。汽车间通信是确保安全进入道路的一个有趣的研究课题。此外，车队有潜力以低能耗确保安全，特别是对城市交通。此外，LTE-V是车载通信的启发式解决方案，在不需要ENodeB的情况下，在分散的环境中执行连接。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Information and Telecommunication Sciences

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