Ghz Mmwave(千兆赫毫米波)研究综述
Ghz Mmwave 千兆赫毫米波 - Furthermore, an average throughput of 928 Mbps is achieved with hardware testing, which is close to the maximum throughput of 970 Mbps for a low-power 60-GHz mmWave-embedded device. [1] In this context, we study the feasibility of using 28 GHz and 38 GHz mmWaves in fog radio access networks (F-RANs). [2] In addition, the developed IFoF-based DAS that supports 5G mobile service using 28-GHz mmWave was deployed in the city of Pyeongchang, during winter olympics. [3]此外,通过硬件测试实现了 928 Mbps 的平均吞吐量,这接近于低功耗 60 GHz 毫米波嵌入式设备的 970 Mbps 的最大吞吐量。 [1] 在此背景下,我们研究了在雾无线接入网络 (F-RAN) 中使用 28 GHz 和 38 GHz 毫米波的可行性。 [2] 此外,开发的基于 IFoF 的 DAS 支持使用 28-GHz 毫米波的 5G 移动服务,在冬季奥运会期间部署在平昌市。 [3]
60 Ghz Mmwave
The 60 Ghz Mmwave section is under construction...28 Ghz Mmwave
The 28 Ghz Mmwave section is under construction...ghz mmwave band
Simulation and experimental results show that the proposed single port pattern reconfigurable antenna can operate in 26-30 GHz mmWave bands. [1] 3c mmWave WPAN devices operate in unlicenced 60GHz mmWave band. [2] These investigations may be utilized to exhibit the potential of 28 GHz mmWave band and its worthy for the design of future 5G backhaul networks. [3] In this research, the statistical channel modeling is investigated at unlicensed 60 GHz mmWave band both for Line-of-sight (LOS) and Non-line-of-sight (NLOS) environment using a novel simulator NYUSIM. [4] These investigations may be utilized to demonstrate the potential of 73 GHz mmWave band and its suitability for the 5G outdoor networks. [5] These investigations demonstrate the potential of 60 GHz mmWave band and its suitability for future 5G backhaul network design. [6]仿真和实验结果表明,所提出的单端口方向图可重构天线可以工作在 26-30 GHz 毫米波频段。 [1] 3c 毫米波 WPAN 设备在未经许可的 60GHz 毫米波频段中运行。 [2] 这些研究可用于展示 28 GHz 毫米波频段的潜力及其对未来 5G 回程网络设计的价值。 [3] 在这项研究中,使用新型模拟器 NYUSIM 在未经许可的 60 GHz 毫米波频段研究视距 (LOS) 和非视距 (NLOS) 环境的统计信道建模。 [4] 这些调查可用于展示 73 GHz 毫米波频段的潜力及其对 5G 室外网络的适用性。 [5] 这些调查展示了 60 GHz 毫米波频段的潜力及其对未来 5G 回程网络设计的适用性。 [6]
ghz mmwave frequency Ghz 毫米波频率
This paper proposes a novel copper plated antenna design which operates in the 60 GHz mmWave frequency band. [1] Experimental results demonstrate that the proposed array features an impedance bandwidth wider than 19% at 28 GHz mmWave frequency band under an ultralow-profile of 0. [2] In this paper, we applied the TI 77GHz mmWave Frequency Modulated Continuous Wave (FMCW) radar for the occupancy classification of parking slots with edge deep learning using radar images of both indoor (basement) and outdoor parking areas. [3] 8 Gbps using the 28 GHz mmWave frequency band. [4] We focus on the 60 GHz mmWave frequency band due to its increasing significance in 5G/6G networks and evaluate the effect of Hypersurface in an indoor environment in terms of attenuation coefficients related to the Hypersurface reflection and absorption functionalities, using CST simulation, a 3D electromagnetic simulator of high frequency components. [5]本文提出了一种在 60 GHz 毫米波频段工作的新型镀铜天线设计。 [1] 实验结果表明,所提出的阵列在 0 的超低剖面下,在 28 GHz 毫米波频段具有超过 19% 的阻抗带宽。 [2] 在本文中,我们将 TI 77GHz 毫米波调频连续波 (FMCW) 雷达应用到使用室内(地下室)和室外停车场的雷达图像进行边缘深度学习的停车位占用分类。 [3] 8 Gbps 使用 28 GHz 毫米波频段。 [4] 我们专注于 60 GHz 毫米波频段,因为它在 5G/6G 网络中的重要性日益增加,并使用 CST 模拟、3D 电磁高频分量模拟器。 [5]