The fundamental limits of single-anchor multi-antenna positioning are investigated. Exploiting the structure of the multiple input-multiple output-orthogonal frequency division multiplexing (MIMO-OFDM) channel at millimeter-wave frequencies, we present geometrically intuitive asymptotic expressions for the Fisher information on position, orientation and velocity for large bandwidth and number of antennas. The effects of synchronization errors and mobility are studied and it is shown that non-line-of-sight (NLOS) paths can be used to estimate the synchronization error and drastically improve the positioning performance. We also find that, in the presence of line-of-sight (LOS), mobility has a small impact on the achievable positioning accuracy, but in the NLOS-only scenario it can significantly improve the achievable performance, depending on the variance of the synchronization error. Finally, considering a communication system with device-specific transmission and reception constraints, we compare the positioning accuracy between the downlink and the uplink and show that they are equivalent under the same signal-to-noise ratio (SNR).
翻译:调查了单锚多核多核多核频率多极分多频多光化频道(MIIMO-OFDM)在毫米波频率上的结构,我们为Fisher提供关于大型带宽和天线数量的位置、方向和速度的信息,提出了几何直观的无线表达式;研究了同步错误和移动性的影响,并表明非视线路径可用来估计同步误差,并大大改进定位性能;我们还发现,在视线线(LOS)下,移动性对可实现定位准确性影响不大,但在仅根据同步误差的偏差,仅在NLOS的假设中,移动性可以显著改善可实现的性能。最后,我们研究了带有特定设备传输和接收限制的通信系统,我们比较了下链接和上链接之间的定位准确性,并表明它们与信号对音率(SNRR)相当。