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Why does ais not the same as b in matlab??

a = signal;
b = exp(log(signal));

if I plot a and b, the signal is not the same, any help?

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What is signal? Does it by chance have negative or imaginary components? And what do you mean by "not the same"? In the sense of equality (I'm assuming that you're wiring in floating point) or completely different values? –  horchler Jan 27 '14 at 15:11
@horchler signal is an example of a signal. and yes, it has negative values. –  SamuelNLP Jan 27 '14 at 15:16
show an example in matlab! –  sellibitze Jan 27 '14 at 15:37

3 Answers 3

up vote 5 down vote accepted

The logarithm of a negative number, -x, is y = log(x)+pi*1i. Thus when you apply the exponential function to y you will be left with a zero imaginary part (or something that looks like zero). Try this for example:

format long
x = -1;
y = exp(log(x))
abserr = abs(x-y)

Read more about the complex logarithm here.

There can also be inaccuracy due to floating point of course. The absolute error can be especially significant if your signal has values anywhere near to 1/eps (or -1/eps). Try

x = 1/eps;
y = exp(log(x));
abserr = abs(y-x)  
relerr = abs(y-x)/abs(x)

which returns

abserr =


relerr =


Note that the relative error is tiny. In floating point calculations relative error is generally what we wish to control.

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I had to read the "be left with a zero imaginary part" multiple times to understand what you are trying to say here. basically, exp(y) will be complex-valued where x is real. And due to rounding errors the imaginary part of exp(y) might not be exactly zero. –  sellibitze Jan 27 '14 at 15:40
@sellibitze: Thanks for the suggestion – I've tried to update. The idea is that even if the the imaginary part is exactly zero, the output will now be complex (i.e., there will now be a zero imaginary part when the input was previously all real: complex(-1,0)). Thus it may look like the results are different. And even if it looks like the imaginary part is zero when printed, it may just be that it is very small. –  horchler Jan 27 '14 at 15:46
Now, i'm not sure anymore what you tried to say with "be left with a zero imaginary part". I find it rather confusing even though I know the math behind complex exponentials and could have written my own answer. –  sellibitze Jan 27 '14 at 15:51
@sellibitze: Taking the log of a negative number, e.g., log(-1), results in a complex value. Taking the exponential of log(-1) should, mathematically, result in -1. But we're not doing math, we're programming. So, if there was no numerical error, Matlab would return complex(-1,0) (it actually returns -1+1.224646799147353e-16*1i which looks the same when printed). Because the the intermediate result of log(-1) was complex, all subsequent results will be complex. Think of "complex" as datatype rather than a mathematical construct (type whos to see if variables are complex or not). –  horchler Jan 27 '14 at 16:01
You might read the documentation on complex. By the way isreal(complex(-1,0)) returns false in Matlab. –  horchler Jan 27 '14 at 16:04

horchler's answer is of course right – but I think it misses the plotting part which causes the OP's confusion. Since Matlab uses complex numbers when necessary, log is defined also for negative numbers, and exp should be the exact inverse of log – except for rounding errors. The numerical difference between signal and exp(log(signal)) should almost always be very small. An example:

>> signal = (-2:2)'

signal =


>> exp(log(signal))

ans =

                         -2 +  2.44929359829471e-16i
                         -1 +  1.22464679914735e-16i
                          0 +                     0i
                          1 +                     0i
                          2 +                     0i

However, the behavior of plot differs depending on whether the argument is a real or a complex number:

subplot(1, 2, 1)
plot(signal, '.-')
subplot(1, 2, 2)
plot(exp(log(signal)), '.-')

results in

Though the two vectors have a negligible numerical difference, the plots look completely different.

That is because if called with a single real-valued vector as an argument, plot uses the given vector values for the vertical axis and the vector indices (1, 2, …) for the horizontal axis. However, if called with a single complex-valued vector, plot uses the real part for the horizontal axis and the imaginary part for the vertical axis. I.e., the two calls to plot in the above code are equivalent to

plot(1 : 5, signal, '.-')


plot(real(exp(log(signal))), imag(exp(log(signal))), '.-')


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If you use log with complex or negative values, Matlab calculates the complex logarithm. This will yield unexpected results.

a = abs(signal);
b = exp(log(a));

will work as you expect it to (although the signal's complex part and sign will be lost in the process).

b = log(exp(signal));

will also work because it doesn't need to handle complex logarithms.

In other words, you have to make sure to respect your functions' domains. The real (as in non-complex) log's domain is all positive(!) real numbers while real exp's domain is all numbers. On the other hand, log's image is all real numbers while real exp's is all positive real numbers. That's why it works one way, but not the other. You're trying to do something the real log can't do, so Matlab switches to the complex log. While exp still reverses it, you will get complex results which are handled differently and can look entirely different depending on what you do with them afterwards.

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Also, horchler's answer explains pretty well why it doesn't work with the complex logarithm. I just didn't get the notification about his answer strangely... –  scenia Jan 27 '14 at 15:43
But exp does reverse log almost exactly for positive and negative numbers alike – there's only a tiny numerical error. –  A. Donda Jan 27 '14 at 18:16
You're right. I actually misinterpreted my own testing results... –  scenia Jan 28 '14 at 10:15

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