An optimal method for retrieving useful frequency information from a noisy sinusoidal signal

7th IEEE Conference on Instrumentation and Measurement Technology Pub Date : 1990-02-13 DOI:10.1109/IMTC.1990.65993

G. Hancke

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Abstract

The author proposes a signal processing method whereby the frequency of a noisy sinusoidal signal can be estimated optimally. The criterion for optimum performance is the minimum measurement time for given error or the minimum error for a given measurement time when the same signal-to-noise condition prevails. Three methods of analyzing the instants of the transition of the signal through a selected level in a given direction can be used to determine the frequency. The first method measures the time between two consecutive positive zero crossings. The second method calculates the average period of the signal. With the third method every instant of transition through the same level is noted, thereby obtaining a sequence of equally spaced points, which can be approximated with least square error by a sequence of unequally spaced points, the interval of which can then be used to calculate an estimate of the frequency. These methods have been simulated, and the results give a comparison of the measurement errors for the various methods when different signal-to-noise ratios and measurement times are used.<>

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从有噪声的正弦信号中检索有用频率信息的最佳方法

作者提出了一种信号处理方法，该方法可以最优地估计含噪正弦信号的频率。最佳性能的准则是给定误差的最小测量时间，或在相同信噪比条件下给定测量时间的最小误差。三种分析信号在给定方向上通过选定电平的瞬间转换的方法可用于确定频率。第一种方法测量两个连续的正零交叉点之间的时间。第二种方法计算信号的平均周期。第三种方法是记录每一个通过同一能级的跃迁瞬间，从而得到一个等间隔的点序列，该序列可以用不等间隔的点序列用最小二乘误差逼近，其间隔可以用来计算频率的估计。对这些方法进行了仿真，比较了不同信噪比和不同测量时间下各种方法的测量误差。

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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7th IEEE Conference on Instrumentation and Measurement Technology

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