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I am trying to create a sinusoidal model to simulate the sea as a fixed surface, but I'm not sure how to adapt a simple sinusoidal model so that the wave height and frequency varies within a range (more like the sea). I would change the range for varying sea states, but just need to see how to create a varying amplitude and frequency within a secified range.

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darova
darova on 13 Apr 2020
Can you show something? Picture?
Reuben Salisbury
Reuben Salisbury on 13 Apr 2020
t=0:0.1:20
X0= input('Wave amplitude ')
w=input('Wave Frequency ')
y=X0sin(wt) %simple sinusoidal wave with no variation
This is just a standard wave with no variation, but I want a random array of amplitudes between set values.
darova
darova on 13 Apr 2020
Can you make a sketch? I don't understand
Reuben Salisbury
Reuben Salisbury on 13 Apr 2020
I am trying to make the value of X0 vary so that the maximum amplitude is not always constant
darova
darova on 13 Apr 2020
try this madness
x = 0:0.01:10;
y = sin(20*x).*sin(x);
plot(x,y)

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 Accepted Answer

Ameer Hamza
Ameer Hamza on 13 Apr 2020
Edited: Ameer Hamza on 13 Apr 2020

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Try something like this
t = linspace(-10,10,100);
[X,Y] = meshgrid(t);
f = (sin(X+Y)/2+0.5)*0.3+0.3; % frequency change between 0.3 to 0.6
A = (cos(X.*Y/3.5)/2+0.5)*0.3 + 0.7; % amplitude change between 0.7 to 1.0
Z = A.*sin(f.*X).*sin(f.*Y);
surf(X,Y,Z)
It have both variable frequency and amplitude between a specified range.

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Reuben Salisbury
Reuben Salisbury on 14 Apr 2020
is there a way to make it so that the amplitude and frequency are randomly varying in 2 dimensions only? or otherwise a way that i can simulate a boat travelling over the surface you have shown?
Ameer Hamza
Ameer Hamza on 14 Apr 2020
By two dimensions, do you want to have one just independent and one dependent variable?
Reuben Salisbury
Reuben Salisbury on 14 Apr 2020
yes exactly, just a sinusoidal function in two dimensions with a varying amplitude and frequency
Ameer Hamza
Ameer Hamza on 14 Apr 2020
Edited: Ameer Hamza on 14 Apr 2020
try this
Ts = 0.01;
x = -100:Ts:100;
fd = (sin(x)/2+0.5)*0.4+0; % frequency change between 0 to 0.4
fx = cumsum(fd)*Ts;
A = (cos(x/3.5)/2+0.5)*0.7 + 0.3; % amplitude change between 0.3 to 1.0
z = A.*sin(fx);
plot(x,z)
Reuben Salisbury
Reuben Salisbury on 14 Apr 2020
Edited: Reuben Salisbury on 14 Apr 2020
That's Great, thank you so much for all of your help.
What figures need to be changed to vary the range of frequencies/ampltudes?
Ameer Hamza
Ameer Hamza on 14 Apr 2020
In this equation
fd = (sin(x)/2+0.5)*0.4+0; % frequency change between 0 to 0.4
0 at the end is the lower range of the frequency and 0.4 is the change in frequency. So
fd = (sin(x)/2+0.5)*1.0+0.5;
will have frequency in range [0.5, 1.5].
Similar parameters are defined for amplitude.
Reuben Salisbury
Reuben Salisbury on 14 Apr 2020
Great, thanks again.

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