Multiple antenna arrays play a key role in wireless networks for communications but also localization and sensing. The use of large antenna arrays pushes towards a propagation regime in which the wavefront is no longer plane but spherical. This allows to infer the position and orientation of an arbitrary source from the received signal without the need of using multiple anchor nodes. To understand the fundamental limits of large antenna arrays for localization, this paper fusions wave propagation theory with estimation theory, and computes the Cram{\'e}r-Rao Bound (CRB) for the estimation of the three Cartesian coordinates of the source on the basis of the electromagnetic vector field, observed over a rectangular surface area. To simplify the analysis, we assume that the source is a dipole, whose center is located on the line perpendicular to the surface center, with an orientation a priori known. Numerical and asymptotic results are given to quantify the CRBs, and to gain insights into the effect of various system parameters on the ultimate estimation accuracy. It turns out that surfaces of practical size may guarantee a centimeter-level accuracy in the mmWave bands.
翻译:多天线阵列在无线通信网络中发挥着关键作用,但也具有本地化和感测作用。大型天线阵列的使用将波头不再为平面而是球形的传播系统推向波浪边不再为平面而是向球形的传播系统。 这样就可以从收到的信号中推断任意源的位置和方向, 而不必使用多个锚点节点。 要理解用于定位的大型天线阵列的基本界限, 这个纸质聚变波传播理论与估计理论相结合, 并计算Cram` e'r- Rao Bound (CRB), 以根据电磁矢量场对源的三个碳酸盐坐标进行估算, 在矩形表面区域观测到。 为了简化分析, 我们假设源是一个dipole, 其中心位于地心与地表中心相连的直线上, 其方向是已知的。 核数值和亚质结果用于量化CRBs, 并了解各种系统参数对最终估计精确度的影响。 它转换出实际大小的表面可能保证地表的厘米的精确度。