I am new to Python. I intend to do Fourier Transform to an array of discrete points, (time, acceleration), and plot the result out.
I copy and paste the sample FFT code, and modify accordingly.
Please see codes:
import numpy as np import matplotlib.pyplot as plt # Load the .txt file in myData = np.loadtxt('twenty_z_up.txt') # Extract the time and acceleration columns time = copy(myData[:,0]) # Extract the acceleration columns zAcc = copy(myData[:,3]) t = np.arange(10080) sp = np.fft.fft(zAcc) freq = np.fft.fftfreq(t.shape[-1]) plt.plot(freq, sp.real)
myData is a rectangular matrix with 10080 rows and 10 columns.
Thus, zAcc is the row3 extracted from the matrix.
In the plot drawn by Spyder, most of the harmonics concentrated around 0. They are all extremely small.
But my data are actually the accelerations of the phone carried by a walking person (including the gravity). So I expect the most significant harmonic happens around 2Hz.
Why is the graph non-sense?
Thanks in advance!
==============UPDATES: My Graphs======================
The first time domain one:
x-axis is in millisecond.
y-axis is in m/s^2, due to earth gravity, it has a DC offset of ~10.