Wireless Vehicular(无线车载)研究综述
Wireless Vehicular 无线车载 - We present and discuss results of a wireless vehicular-to-infrastructure multiband channel measurement campaign at center frequencies of 3. [1]我们展示并讨论了中心频率为 3 的无线车辆到基础设施多频带信道测量活动的结果。 [1]
wireless vehicular network
It is based mainly on the wireless vehicular network (WVN), where vehicles can perform sophisticated services such as sharing real-time safety information. [1] Moreover, the highly dynamic wireless vehicular network and non-predictable traffic load demands the dynamic adjustments in the channel interval. [2] These safety requisites are particularly important in wireless vehicular networks, where road traffic presents several threats to human life. [3] Location information claimed by devices will play an ever-increasing role in future wireless networks such as wireless vehicular networks, 5G, and the Internet of Things (IoT). [4] 11p MAC with RL-based adaptation and insight of the various challenges appearing when applying such mechanisms in a wireless vehicular network are presented. [5]它主要基于无线车载网络 (WVN),车辆可以在其中执行复杂的服务,例如共享实时安全信息。 [1] 此外,高度动态的无线车载网络和不可预测的交通负载要求对信道间隔进行动态调整。 [2] 这些安全要求在无线车载网络中尤为重要,因为道路交通对人类生命构成了多种威胁。 [3] 设备声称的位置信息将在无线车载网络、5G 和物联网 (IoT) 等未来无线网络中发挥越来越重要的作用。 [4] 11p MAC 具有基于 RL 的适应和洞察在无线车辆网络中应用此类机制时出现的各种挑战。 [5]
wireless vehicular communication
Wireless vehicular communications are a promising technology. [1] The performance of orthogonal frequency division multiplexing (OFDM) based wireless vehicular communication systems is faced with the great challenge of impulsive noise (IN), which could limit the application of OFDM in ultra-reliable low-latency communication scenarios. [2]无线车载通信是一项很有前途的技术。 [1] 基于正交频分复用(OFDM)的无线车载通信系统的性能面临着脉冲噪声(IN)的巨大挑战,这可能会限制OFDM在超可靠低延迟通信场景中的应用。 [2]