Let's assume your `wav`

file has a sampling rate of `fs = 44100`

(which is quite common), i.e. you have `44100`

samples per second. Now, you want to have one sample each `0.3 s`

. You have to calculate the corresponding number of samples to "skip" with respect to your original sampling rate, i.e. `skip = 0.3 * fs = 13230`

in this case. Now, you can simply access each `skip`

'th element in your original `signal`

(and also time interval `t`

).

Here's some code to do the work, and visualize the above:

```
% Artificial data
signal = sin(linspace(0, 2*pi, 5 * 44100));
fs = 44100;
dt = 1 / fs;
N = length(signal);
t = 0:dt:(N-1)*dt;
% "Re-sampling" parameters
dt_new = 0.3;
skip = dt_new * fs;
% Extract every skip'th value from original time interval and signal
t_new = t(1:skip:end).'
signal_new = signal(1:skip:end);
% Some visualization
figure(1);
hold on;
plot(t, signal);
plot(t_new, signal_new, 'r.', 'MarkerSize', 15);
hold off;
```

We get the following output, the original signal is blue, the red points are the samples at every `0.3 s`

:

If you have a look at `t_new`

, you see, that the sampling points exactly match your desired interval of `0.3 s`

:

```
t_new =
0.00000
0.30000
0.60000
0.90000
1.20000
1.50000
1.80000
2.10000
2.40000
2.70000
3.00000
3.30000
3.60000
3.90000
4.20000
4.50000
4.80000
```

Hope that helps!

**EDIT:** There's also a `resample`

function available in the *Signal Processing Toolbox*. I'm not sure, if this function is useful here, since the new sampling rate would be `fs_new = 1 / 0.3 = 3.3333`

, but `resample`

only accepts integers. Maybe, there's another more sophisticated (toolbox) function to do the job automatically.