We were thinking here how to create Hamming-64 window of overlap 64. It is done by

```
h = hamming(64);
h2 = hamming(38);
h = conv(h, h2);
```

Now, we are thinking how you can apply this window function to the resulted variabels of the Wigner-Ville Distribution function of Auger et al in Time-Frequency Toolbox. The function tfrwv.m does not have any parameter for window function.

So we have these variables

```
[B,T,F] = tfrwv(data, 1:length(data), length(data));
```

Here is one answer to related problem, but not completely the same. One says that apply the window function to the results

Just multiply, point-by-point

The dimensions of **h** are 101x1 double, while **T** and **F** 5001x1 double.
So extrapolation seems to be needed to the window vector if multiplying point-by-point.

One more explanation here

About half way through the second code block, I apply a window function to a buffered signal. This is effectively a vector multiplication of the window function with each buffered block of time series data. I just use a sneaky diagonal matrix trick to do it efficiently.

**How can you apply a window function to the variables B, T, and F?**