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I'm using SciPy instead of MATLAB in a control systems class to plot the step responses of LTI systems. It's worked great so far, but I've run into an issue with a very specific system. With this code:

from numpy import min
from scipy import linspace
from scipy.signal import lti, step
from matplotlib import pyplot as p

# Create an LTI transfer function from coefficients
tf = lti([64], [1, 16, 64])
# Step response (redo it to get better resolution)
t, s = step(tf)
t, s = step(tf, T = linspace(min(t), t[-1], 200))
# Plotting stuff
p.plot(t, s)
p.xlabel('Time / s')
p.ylabel('Displacement / m')

The code as-is displays a flat line. If I modify the final coefficient of the denominator to 64.00000001 (i.e., tf = lti([64], [1, 16, 64.0000001])) then it works as it should, showing an underdamped step response. Setting the coefficient to 63.9999999 also works. Changing all the coefficients to have explicit decimal places (i.e., tf = lti([64.0], [1.0, 16.0, 64.0])) doesn't affect anything, so I guess it's not a case of integer division messing things up.

Is this a bug in SciPy, or am I doing something wrong?

share|improve this question
I am not sure what you mean by 'instead of', you are using scipy for computation and maplotlib for plotting, exactly as they are designed to be used. – tcaswell Apr 20 '13 at 0:05
Are you sure that that set of parameters is non-singular? And are you having any issues with matplotlib, or just using it? – tcaswell Apr 20 '13 at 0:25
@tcaswell I'm using Python libraries instead of using MATLAB. I wasn't aware the parameters had to be non-singular, thanks! – Daniel Buckmaster Apr 20 '13 at 5:07
up vote 5 down vote accepted

This is a limitation of the implementation of the step function. It uses a matrix exponential to find the step response, and it doesn't handle repeated poles well. (Your system has a repeated pole at -8.)

Instead of using step, you can use the function scipy.signal.step2

In [253]: from scipy.signal import lti, step2

In [254]: sys = lti([64], [1, 16, 64])

In [255]: t, y = step2(sys)

In [256]: plot(t, y)
Out[256]: [<matplotlib.lines.Line2D at 0x5ec6b90>]

enter image description here

share|improve this answer
Thanks! I had no idea there'd be a problem with repeated poles. In general, can step2 replace step? – Daniel Buckmaster Apr 20 '13 at 5:08
@DanielBuckmaster: Yes, you can use step2 to replace step in general. – Warren Weckesser Apr 20 '13 at 15:47
Documentation needed? – pv. Apr 21 '13 at 14:00
@pv.: Sure, but step should really be improved. Further comments could be made here: projects.scipy.org/scipy/ticket/577 – Warren Weckesser Apr 22 '13 at 3:13

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