Futuristic device-to-device communication paradigm in vehicular ad-hoc network

Zain Hashim, Nishu Gupta
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引用次数: 3

Abstract

Emerging heterogeneous networking is designed to accommodate large volumes of data traffic especially in vehicular environment. As a result, an increased level of QoS requirements and new solutions to ensure fast and reliable data delivery has become indispensable. In this context, device-to-device (D2D) communication technology in 5G network provides a reliable infrastructure which will enable dissemination of various safety and non-safety applications. D2D communication alleviates fast communication between vehicles thereby improving the spectral efficiency, system capacity and throughput and overall performance of the system. This paper develops a paradigm to extend D2D for vehicular infrastructure with the capacity to facilitate vehicular traffic using the LTE band. To analyze the proposed scheme performance, simulations based on LTE network are performed. Results show that our approach provides significant enhancement over IEEE 802.11p standard and LTE-A technology in terms of different performance metrics.
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车载自组织网络中未来设备对设备通信范式
新兴的异构网络是为适应大量数据流量而设计的,特别是在车载环境下。因此,提高QoS要求和确保快速可靠数据传输的新解决方案变得必不可少。在这种情况下,5G网络中的设备对设备(D2D)通信技术提供了可靠的基础设施,使各种安全和非安全应用得以传播。D2D通信缓解了车辆之间的快速通信,从而提高了频谱效率、系统容量和吞吐量以及系统的整体性能。本文开发了一种范例,将D2D扩展到车辆基础设施,使其能够使用LTE频段促进车辆交通。为了分析该方案的性能,在LTE网络上进行了仿真。结果表明,就不同的性能指标而言,我们的方法比IEEE 802.11p标准和LTE-A技术提供了显着的增强。
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