大学物理 ›› 2012, Vol. 31 ›› Issue (2): 28-28.

• 著者文摘 • 上一篇    下一篇

修正采样定理与周期现象的实验研究方法

龙姝明[1] 尹继武[2] 孙彦清[1]   

  1. [1]陕西理工学院物理系,陕西汉中723000 [2]陕西理工学院电信工程系,陕面汉中723000
  • 出版日期:2012-02-25 发布日期:2012-02-20

Revising sampling theorem and experimental research method of cycle phenomenon

  • Online:2012-02-25 Published:2012-02-20

摘要: 信号与系统理论中的采样定理,要求采样时区无限宽,采样数据无限多,这是一种理想化情况.实际采样时区宽度和采样数据量只能有限,采样定理难以用来探索物理量随时间变化的规律.结合物理学实验研究的需要,我们提出了修正采样定理.利用修正采样定理和周期物理量的有限多个采样数据,可以准确捕获周期物理量的演化规律.方法是,取尽可能小的采样周期T8和尽可能多的观测次数Ⅳ.观测周期物理量产生Ⅳ个采样数据,先找出物理量的周期r.然后通过重复观测来调整T8和N,使NT8/T等于整数.计算采样数据的频谱X8(f),利用修正采样定理和X8(f),快速得到周期物理量的频谱X8(f).依据X(f)重建周期物理量随时间变化的规律.以大摆角单摆为例,展示研究周期现象规律的方法和过程.

关键词: 周期现象, 物理量, 频谱, 变化规律

Abstract: The sampling theorem in signal and system theory,demands sample the time zone limitlessly widely, amount of data sampled is many limitlessly. This is a kind of idealized situation. It can only be limited to sample the width of time zone and amount of data sampled actually. Therefore, it is difficult for the sampling theorem to use and explore the law that the physical quantity evolved with time. The need of combining the physics experiment and studying, we propose the revising sampling theorem for utilizing limited sampled data and revising sampling theorem, which can catch the evolution law of cycle physical quantity accurately. The method is, fetch the time in- terval T8 as small as possible, fetch the number of times of observation as large as possible, to observe cycle physi- cal quantity N times. We analyze the sampled data and find out cycle T of the physical quantity, adjust T and N by observing repeatedly,make NT8/T equal to the integer. We calculate spectral Xs(f) which samples the data, utilize the revising sampling theorem and X (f), and get spectral X (f) of cycle physical quantity fast. According to X(f) , we rebuild law that the cycle physical quantity evolved with time. As an example, large tilt angle simple pendulum as the research object, we show the method and process of cycle phenomenon law.

Key words: cycle phenomenon, physical quantities, spectrum, variation law

中图分类号: 

  • O321