With the increasing demand for higher data rates and more reliable service capabilities for wireless devices, wireless service providers are facing an unprecedented challenge to overcome a global bandwidth shortage. Early global activities on beyond fourth-generation (B4G) and fifth-generation (5G) wireless communication systems suggest that millimeter-wave (mmWave) frequencies are very promising for future wireless communication networks due to the massive amount of raw bandwidth and potential multigigabit-per-second (Gb/s) data rates [1]?[3]. Both industry and academia have begun the exploration of the untapped mmWave frequency spectrum for future broadband mobile communication networks. In April 2014, the Brooklyn 5G Summit [4], sponsored by Nokia and the New York University (NYU) WIRELESS research center, drew global attention to mmWave communications and channel modeling. In July 2014, the IEEE 802.11 next-generation 60-GHz study group was formed to increase the data rates to over 20 Gb/s in the unlicensed 60-GHz frequency band while maintaining backward compatibility with the emerging IEEE 802.11ad wireless local area network (WLAN) standard [5].

中文翻译：

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子孙后代的安全：无线通信中毫米波安全的考虑


随着对无线设备更高数据速率和更可靠服务能力的需求不断增长，无线服务提供商在克服全球带宽短缺方面面临着前所未有的挑战。关于超第四代 (B4G) 和第五代 (5G) 无线通信系统的早期全球活动表明，毫米波 (mmWave) 频率由于拥有大量原始带宽和潜在的多千兆位，因此对于未来的无线通信网络非常有前景。每秒 (Gb/s) 数据速率 [1]？[3]。工业界和学术界都已开始探索未来宽带移动通信网络未开发的毫米波频谱。 2014 年 4 月，由诺基亚和纽约大学 (NYU) 无线研究中心主办的布鲁克林 5G 峰会 [4] 引起了全球对毫米波通信和信道建模的关注。 2014 年 7 月，IEEE 802.11 下一代 60 GHz 研究小组成立，旨在将免许可 60 GHz 频段的数据速率提高到 20 Gb/s 以上，同时保持与新兴 IEEE 802.11ad 无线局域网的向后兼容性（无线局域网）标准 [5]。