An Unambiguous Phase-Based Algorithm for Single-Digit Micron Accuracy Distance Measurements using FMCW Radar

L. Piotrowsky, T. Jaeschke, S. Kuppers, N. Pohl
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引用次数: 7

Abstract

In this paper an algorithm for accurate distance estimation using a frequency modulated continuous wave (FMCW) radar is presented. First, a phase calibration of the radio and intermediate frequency path transfer function compensates for distance dependent effects. The unambiguous frequency of the target is used for range cell estimation and the ambiguous but highly accurate and precise target phase is combined with this range cell information.To demonstrate the capabilities of the proposed signal processing chain, distance measurements using an 80 GHz wideband FMCW radar sensor with a movable target and a maximum measurement range of up to 5 m have been carried out. The target is mounted on a precision linear track and the position is laser interferometer referenced. For free space measurements with a target in about 1.2 to 5 m distance, the unambiguous single measurement accuracy has been improved from about ±400 µm to ±8 µm. A potential application of a radar system using this algorithm is the online measurement of machine tools.
FMCW雷达个位数微米精度距离测量的无二义相位算法
本文提出了一种利用调频连续波(FMCW)雷达进行精确距离估计的算法。首先,无线电和中频路径传递函数的相位校准补偿距离依赖效应。利用目标的明确频率进行距离单元估计,并将模糊但高精度的目标相位与该距离单元信息相结合。为了证明所提出的信号处理链的能力,使用带有可移动目标的80 GHz宽带FMCW雷达传感器进行了距离测量,最大测量范围可达5米。目标安装在精确的直线轨迹上,位置由激光干涉仪参考。对于1.2至5米距离目标的自由空间测量,明确的单次测量精度从±400µm提高到±8µm。使用该算法的雷达系统的一个潜在应用是机床的在线测量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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