Modified Wigner distribution function


A Modified Wigner distribution function is a variation of the Wigner distribution function with reduced or removed cross-terms.
The Wigner distribution was first proposed for corrections to classical statistical mechanics in 1932 by Eugene Wigner. The Wigner distribution function, or Wigner-Ville distribution for analytic signals, also has applications in time frequency analysis. The Wigner distribution gives better auto term localisation compared to the smeared out spectrogram. However, when applied to a signal with multi frequency components, cross terms appear due to its quadratic nature. Several methods have been proposed to reduce the cross terms. For example, in 1994 L. Stankovic proposed a novel technique, now mostly referred to as S-method, resulting in the reduction or removal of cross terms. The concept of the S-method is a combination between the spectrogram and the Pseudo Wigner Distribution, the windowed version of the WD.
The original WD, the spectrogram, and the modified WDs all belong to the Cohen's class of bilinear time-frequency representations :
where is Cohen's kernel function, which is often a low-pass function, and normally serves to mask out the interference in the original Wigner representation.

Mathematical definition

Cohen's kernel function :
where is the short-time Fourier transform of.
Cohen's kernel function : which is the WD of the window function itself. This can be verified by applying the convolution property of the Wigner distribution function.
The spectrogram cannot produce interference since it is a positive-valued quadratic distribution.


Can't solve the cross term problem, however it can solve the problem of 2 components time difference larger than window size B.
Where L is any integer greater than 0
Increase L can reduce the influence of cross term
For example, for L=2, the dominant third term is divided by 4.
This gives a significant improvement over the Wigner Distribution.
Properties of L-Wigner Distribution:
  1. The L-Wigner Distribution is always real.
  2. If the signal is time shifted , then its LWD is time shifted as well,
  3. The LWD of a modulated signal is shifted in frequency
  4. Is the signal is time limited, i.e., then the L-Wigner distribution is time limited,
  5. If the signal is band limited with, then is limited in the frequency domain by as well.
  6. Integral of L-Wigner distribution over frequency is equal to the generalized signal power:
  7. Integral of over time and frequency is equal to the power of the norm of signal :
  8. The integral over time is:
  9. For a large value of We may neglect all values of, Comparing them to the one at the points, where the distribution reaches its essential supremum:


When and, it becomes the original Wigner distribution function.
It can avoid the cross term when the order of phase of the exponential function is no larger than
However the cross term between two components cannot be removed.
should be chosen properly such that
If
when ,
Cohen's kernel function : which is concentred on the frequency axis.
Note that the pseudo Wigner can also be written as the Fourier transform of the “spectral-correlation” of the STFT
In the pseudo Wigner the time windowing acts as a frequency direction smoothing. Therefore, it suppresses the Wigner distribution interference components that oscillate in the frequency direction. Time direction smoothing can be implemented by a time-convolution of the PWD with a lowpass function :
Cohen's kernel function : where is the Fourier transform of the window.
Thus the kernel corresponding to the smoothed pseudo Wigner distribution has a separable form. Note that even if the SPWD and the S-Method both smoothes the WD in the time domain, they are not equivalent in general.
Cohen's kernel function :
The S-method limits the range of the integral of the PWD with a low-pass windowing function of Fourier transform. This results in the cross-term removal, without blurring the auto-terms that are well-concentred along the frequency axis.
The S-method strikes a balance in smoothing between the pseudo-Wigner distribution and the power spectrogram .
Note that in the original 1994 paper, Stankovic defines the S-methode with a modulated version of the short-time Fourier transform :
where
Even in this case we still have