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I am solving NLSE equation with a potential term in matlab by split-step method. I want to see solution in it numerically. u=sech(x) is the initial guess solution in that numerical algorithm. But I want to add 10% random perturbation to this initial guess solution in matlab. How to do it? Is it like:

u=sech(x)+10/100*cos(x)

where the random perturbation is sinusoidal.

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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

Img 1

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

Img 2

  • Actually, I intend to study the stability of the sech soliton pulse in this model. I got a paper in which they pointed out about this random perturbation. I have no clue. See this paper, page 4, bottom: |aip.scitation.org/doi/full/10.1063/1.4982972 – foi Aug 11 '17 at 7:39
  • @Sam I do not have access to that paper. – Vahe Tshitoyan Aug 11 '17 at 9:26
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I cannot comment under your post yet, but if you want a random perturbation, why don't you use rand or similar functions? Rand returns a scalar or array of random values from 0 to 1 that can be easily constrained to any desired intervals. I used that as a random noise in my wave problems.

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