The Korteweg–de Vries equation is a partial differential equation, so ode45 is not appropriate for it. The Partial Differential Equation Toolbox is likely necessary. Since Soliton solutions exist, as nonlilnear ordinary differential equations, ode45 could be appropriate.
solving the Korteweg-de Vries equation in Matlab
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Hey,
I'm trying to solve the Korteweg-de Vries - 
in matlab using ode45 and fft, but my code is very inefficient and I figure out why. The odefunc is
in matlab using ode45 and fft, but my code is very inefficient and I figure out why. The odefunc isfunction dydt = kdv(y,k)
% du/dt = -d3u/dx3 - 6u du/dx
% numerically approximates the derivative in the fourier domain
yhat = fft(y);
dyhat = 1i*k.*yhat;
d3yhat = -1i*(k.^3).*yhat;
dy = ifft(dyhat);
d3y = ifft(d3yhat);
dydt = - d3y - 6*(y.*dy);
end
and then I call it using
[t,U] = ode45(@(t,y)kdv(y,k),tspan, y0);
but even for very small arrays it takes forever to run. I tried timing each step becuase I suspected that evaluating the fourier transform every iteration is the reason for the inefficiency, but it turns out that this part of the code runs quite fast and the bulk of the computtion time is in ode45 computations between steps.
Any suggestions are appriciated!
3 comentarios
Rahul
el 17 de En. de 2025
You are right. The FFT turns it into a ordinary differentuial equation..
the code below does not work , i suspect the problem is in the conv() part
L = 100;
N = 1000;
dx = L/N;
x = -L/2:dx:L/2-dx;
kappa = (2*pi/L)*(-N/2 : N/2-1);
kappa = fftshift(kappa);
u0 = sech(x);
t = 0:0.1:10;
[t,uhat] = ode45(@(t,uhat)kortewegdevries(t,uhat,kappa),t,fft(u0));
for k = 1:length(t)
u(k,:)= ifft(uhat(k,:));
end
figure, waterfall( (u(1:10:end,:)));
figure, imagesc( flipud(u));
function duhatdt = kortewegdevries(t,uhat,kappa)
duhatdt = -1i*(kappa.^3)'.*uhat + conv(uhat,1i*kappa.*uhat); % -(kappa.^2)'.*uhat;%
end
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