# Generation of random vibration from power spectral density

I'm trying to generate a random road which will be used as input for a Quarter-car model.

In Figure 2, generated roads are plotted with a maximum elevation of 15 mm for A-B category and 100 mm for D-E. My problem is that I get much higher amplitudes from those reported by them.

I'm not sure what I'm doing wrong, any guidance would be appreciated.

Length of road = 250 meters

Spatial frequency band = 0.004 -> 4

I used the formula (8) and the simplified version (9) from the article both give me same results.

My matlab code:

``````clear all;close all;
% spatial frequency (n0) cycles per meter
Omega0 = 0.1;
% psd ISO (used for formula 8)
Gd_0 =  32 * (10^-6);
% waveviness
w = 2;
L = 250;

%delta n
N = 1000;
Omega_L = 0.004;
Omega_U = 4;

delta_n =  1/L; % delta_n = (Omega_U - Omega_L)/(N-1);

% spatial frequency band
Omega = Omega_L:delta_n:Omega_U;

Gd = Gd_0.*(Omega./Omega0).^(-w);

% calculate amplitude using formula(8) in the article
%Amp = sqrt(2*Gd*delta_n);

%calculate amplitude using simplified formula(9) in the article
k = 3;
Amp = sqrt(delta_n) * (2^k) * (10^-3) * (Omega0./Omega);

%random phases
Psi = 2*pi*rand(size(Omega));

% x abicsa from 0 to L
x = 0:0.25:250;
h= zeros(size(x));

for i=1:length(x)
h(i) = sum( Amp.*cos(2*pi*Omega*x(i) + Psi) );
end

plot(x, h*1000 );
xlabel('Distance m');
ylabel('Elevation (mm)');

grid on
``````
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In this paper: Josef Melcer “numerical simulation of vehicle motion along the road structure”, 2012 (just google it)

only the final formula for road hight is given (formula 4) and is different from the formula in the paper of Agostinacchio. The difference is the 2*pi in the cosin term. Deleting the 2*pi term leads to much "better" amplitudes (better in a sense of “the scripted plot fits better to the plots in the paper of Agostinacchio”). But I am not sure if this is physical and mathematical correct.

Do you have another solution?

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If you have a new question, please ask it by clicking the Ask Question button. Include a link to this question if it helps provide context. –  Felipe Miosso May 5 at 21:30
@FelipeMiosso - ignoring the polite but unnecessary question at the end, this does seem to propose a solution, so it appears to be an answer. It is also the only attempted answer the question has received after a month, so removing it would be counterproductive. –  Chris Stratton May 5 at 21:46

I managed to contact the author of the article to review my code and he said it's correct. It seems that the values for 'k' were wrong in the article, k=6 was actually k=5, k=5 was k=4 and so on, that`s why the amplitudes were higher than expected. Of course, the formulas are slightly different from article to article, some use the sin() instead of cos() or the angular spatial frequency(which already includes the 2*pi term) instead of the spatial frequency.

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