First, you have to specify what exactly you mean by 10% random perturbation. If you just want to add white noise centred at the actual values of `u`

, you could do the below

```
% sample x values
x = 0:0.01:5;
noise_fraction = 0.1; % 10%
% the actual values
u=sech(x);
% the noise
u_noise = noise_fraction*u.*(rand(size(x))-0.5);
figure(1);cla(gca);
hold on;
nh = plot(x, u_noise);
ch = plot(x, u + u_noise);
sh = plot(x, u);
hold off;
legend([sh, nh, ch,], {'Signal', 'Noise', 'Combined'});
```

You should get the following result

Alternatively, if you want the noise level do be independent on the signal and have an amplitude of `0.1`

, similar to what you tried to do in your question, you can remove the `u`

from the noise equation.

```
u_noise = noise_fraction*(rand(size(x))-0.5);
```

You will get