摘要
60 GHz非授权频段因其波长短、频段宽的无线传播特性可实现更高的定位信号测量精度,因此5G NR-U设备基于60 GHz频段进行高精度定位倍受关注;但是由于5G网络是多网异构共存的,存在众多不同无线接入技术(RAT)的设备,潜在的隐藏节点多,即使5G NR-U设备采用先听后说(LBT)方式接入60 GHz无线信道,仍无法有效规避隐藏节点,有时会严重干扰定位信号传输而影响定位性能;针对以上隐藏节点问题,文中提出对定位信号资源集中的多个定位信号资源分别配置不同的空间关系,接收端根据定位信号的测量结果实时动态调整其空间关系,尽可能多地规避潜在的隐藏节点;仿真验证结果表明所提方法可将定位信号的测量精度提升了约27%,显著降低定位误差。
The 60 GHz unlicensed frequency band can achieve the accuracy of higher positioning signal measurement due to its wireless propagation characteristics of short wavelength and wide band;Therefore,based on the 60 GHz frequency band,5 G NR-U equipment has attracted much attention to high-precision positioning;However,5 G network has the characteristics of multi-network heterogeneous coexistence,which has many devices with different radio access technologies(RAT),thus there are many potential hidden nodes in 60 GHz band,even if 5 G NR-U devices use the listen before talk(LBT)to access 60 GHz radio channel,the hidden nodes cannot effectively be avoided,which sometimes interferes with the positioning signal transmission and affects the positioning performance seriously;To solve the above hidden node issue,the different spatial relationships are proposed to configure the multiple positioning signal resources in the positioning signal resource set,and the receiver dynamically adjusts their spatial relationships in real time according to the measurement results,so as to avoid the potential hidden nodes as much as possible;Simulation results show that the proposed method can improve the measurement accuracy of the positioning signal by about 27%and significantly reduce the positioning error.
作者
张文璐
朱振杰
崔琪楣
陶小峰
ZHANG Wenlu;ZHU Zhenjie;CUI Qimei;TAO Xiaofeng(School of Information and Telecommunication Engineering,Beijing University of Posts and Telecommunications,Beijing 100074,China)
出处
《计算机测量与控制》
2022年第12期232-237,共6页
Computer Measurement &Control
基金
国家自然科学基金区域创新发展联合基金(U21A20449)
国家自然科学基金应急专项项目(61941105)。
关键词
60
GHz非授权频段
蜂窝定位技术
空间关系
准共址
隐藏节点
60 GHz unlicensed band
cellular positioning technology
spatial relationship
quasi colocation
hidden nodes