Plot of three coupled oscillator.
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Haya Ali
am 19 Dez. 2022
Kommentiert: Haya Ali
am 20 Dez. 2022
I am trying to built three coupled oscillator just as two coupled oscillator but i don't know what mistake I am doing. Please help me. The code for both the cases are given below
%%Two coupled
clear all; close all; clc;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Simulation %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%value of constants
a1=0.1;a2=0.2;
omega1=5;omega2=4;
G=0.01;C12=0.001;C21=0.002;
dt=0.01; %step size
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
x1(1)=0.5;
y1(1)=0.5;
x2(1)=0.5;
y2(1)=0.5;
for i=2:1000
x1(i)=x1(i-1)+((a1-x1(i-1)^2-y1(i-1)^2)*x1(i-1)-omega1*y1(i-1)+G*C12*(x2(i-1)-x1(i-1)))*dt;
y1(i)=y1(i-1)+((a1-x1(i-1)^2-y1(i-1)^2)*y1(i-1)+omega1*x1(i-1)+G*C12*(y2(i-1)-y1(i-1)))*dt;
x2(i)=x2(i-1)+((a2-x2(i-1)^2-y2(i-1)^2)*x2(i-1)-omega2*y2(i-1)+G*C21*(x1(i-1)-x2(i-1)))*dt;
y2(i)=y2(i-1)+((a2-x2(i-1)^2-y2(i-1)^2)*y2(i-1)+omega2*x2(i-1)+G*C21*(y1(i-1)-y2(i-1)))*dt;
end
figure
hold on
plot(x1,'r')
plot(x2,'g')
%% Three Coupled
close all; clear all; clc;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Simulation %
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%value of constants
a1=0.1;a2=0.2;a3=0.5;
omega1=5;omega2=4;omega3=3;
G=0.01;C12=0.001;C13=0.006;
C21=0.003;C23=0.005;
C31=0.002;C32=0.004;
dt=0.01; %step size
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
x1(1)=0.5;
y1(1)=0.5;
x2(1)=1;
y2(1)=1;
x3(1)=1.5;
y3(1)=1.5;
for i=2:2000
x1(i)=x1(i-1)+((a1-x1(i-1)^2-y1(i-1)^2)*x1(i-1)-omega1*y1(i-1)+G*C12*(x2(i-1)-x1(i-1)))+G*C13*(x3(i-1)-x1(i-1))*dt;
y1(i)=y1(i-1)+((a1-x1(i-1)^2-y1(i-1)^2)*y1(i-1)+omega1*x1(i-1)+G*C12*(y2(i-1)-y1(i-1)))+G*C13*(y3(i-1)-y1(i-1))*dt;
x2(i)=x2(i-1)+((a2-x2(i-1)^2-y2(i-1)^2)*x2(i-1)-omega2*y2(i-1)+G*C21*(x1(i-1)-x2(i-1)))+G*C23*(x3(i-1)-x2(i-1))*dt;
y2(i)=y2(i-1)+((a2-x2(i-1)^2-y2(i-1)^2)*y2(i-1)+omega2*x2(i-1)+G*C21*(y1(i-1)-y2(i-1)))+G*C23*(y3(i-1)-y2(i-1))*dt;
x3(i)=x3(i-1)+((a3-x3(i-1)^2-y3(i-1)^2)*x3(i-1)-omega3*y3(i-1)+G*C31*(x1(i-1)-x3(i-1)))+G*C32*(x2(i-1)-x3(i-1))*dt;
y3(i)=y3(i-1)+((a3-x3(i-1)^2-y3(i-1)^2)*y3(i-1)+omega3*x3(i-1)+G*C31*(y1(i-1)-y3(i-1)))+G*C32*(y2(i-1)-y3(i-1))*dt;
end
figure
hold on
plot(x1,'r')
plot(x2,'g')
plot(x3,'m')
0 Kommentare
Akzeptierte Antwort
Sam Chak
am 19 Dez. 2022
Hi @Haya Ali
I don't know what oscillators are since you didn't provide the math equations to compare with. However, on the programming side, it appears that the location of parenthesis caused the problem. It is possible to randomly shuffle the locations of the brackets by some algorithms until the system responses are stable.
Check if these are the expected responses.
% value of constants
a1 = 0.1;
a2 = 0.2;
a3 = 0.5;
omega1 = 5;
omega2 = 4;
omega3 = 3;
G = 0.01;
C12 = 0.001;
C13 = 0.006;
C21 = 0.003;
C23 = 0.005;
C31 = 0.002;
C32 = 0.004;
dt = 0.01; % step size
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
x1(1) = 0.5;
y1(1) = 0.5;
x2(1) = 1;
y2(1) = 1;
x3(1) = 1.5;
y3(1) = 1.5;
for i = 2:1000
% x1(i) = x1(i-1) + ((a1 - x1(i-1)^2 - y1(i-1)^2)*x1(i-1) - omega1*y1(i-1) + G*C12*(x2(i-1) - x1(i-1))) + G*C13*(x3(i-1) - x1(i-1))*dt;
% y1(i) = y1(i-1) + ((a1 - x1(i-1)^2 - y1(i-1)^2)*y1(i-1) + omega1*x1(i-1) + G*C12*(y2(i-1) - y1(i-1))) + G*C13*(y3(i-1) - y1(i-1))*dt;
% x2(i) = x2(i-1) + ((a2 - x2(i-1)^2 - y2(i-1)^2)*x2(i-1) - omega2*y2(i-1) + G*C21*(x1(i-1) - x2(i-1))) + G*C23*(x3(i-1) - x2(i-1))*dt;
% y2(i) = y2(i-1) + ((a2 - x2(i-1)^2 - y2(i-1)^2)*y2(i-1) + omega2*x2(i-1) + G*C21*(y1(i-1) - y2(i-1))) + G*C23*(y3(i-1) - y2(i-1))*dt;
% x3(i) = x3(i-1) + ((a3 - x3(i-1)^2 - y3(i-1)^2)*x3(i-1) - omega3*y3(i-1) + G*C31*(x1(i-1) - x3(i-1))) + G*C32*(x2(i-1) - x3(i-1))*dt;
% y3(i) = y3(i-1) + ((a3 - x3(i-1)^2 - y3(i-1)^2)*y3(i-1) + omega3*x3(i-1) + G*C31*(y1(i-1) - y3(i-1))) + G*C32*(y2(i-1) - y3(i-1))*dt;
x1(i) = x1(i-1) + ( ( a1 - x1(i-1)^2 - y1(i-1)^2 )*x1(i-1) - omega1*y1(i-1) + G*C12*( x2(i-1) - x1(i-1) ) + G*C13*( x3(i-1) - x1(i-1) ) )*dt;
y1(i) = y1(i-1) + ( ( a1 - x1(i-1)^2 - y1(i-1)^2 )*y1(i-1) + omega1*x1(i-1) + G*C12*( y2(i-1) - y1(i-1) ) + G*C13*( y3(i-1) - y1(i-1) ) )*dt;
x2(i) = x2(i-1) + ( ( a2 - x2(i-1)^2 - y2(i-1)^2 )*x2(i-1) - omega2*y2(i-1) + G*C21*( x1(i-1) - x2(i-1) ) + G*C23*( x3(i-1) - x2(i-1) ) )*dt;
y2(i) = y2(i-1) + ( ( a2 - x2(i-1)^2 - y2(i-1)^2 )*y2(i-1) + omega2*x2(i-1) + G*C21*( y1(i-1) - y2(i-1) ) + G*C23*( y3(i-1) - y2(i-1) ) )*dt;
x3(i) = x3(i-1) + ( ( a3 - x3(i-1)^2 - y3(i-1)^2 )*x3(i-1) - omega3*y3(i-1) + G*C31*( x1(i-1) - x3(i-1) ) + G*C32*( x2(i-1) - x3(i-1) ) )*dt;
y3(i) = y3(i-1) + ( ( a3 - x3(i-1)^2 - y3(i-1)^2 )*y3(i-1) + omega3*x3(i-1) + G*C31*( y1(i-1) - y3(i-1) ) + G*C32*( y2(i-1) - y3(i-1) ) )*dt;
end
figure
hold on
plot(x1)
plot(x2)
plot(x3)
grid on, legend('x', 'y', 'z')
4 Kommentare
Sam Chak
am 19 Dez. 2022
Hi @Haya Ali
This is another version in 3-D.
% value of constants
a1 = 0.1;
a2 = 0.2;
a3 = 0.5;
omega1 = 5;
omega2 = 4;
omega3 = 3;
G = 0.01;
C12 = 0.001;
C13 = 0.006;
C21 = 0.003;
C23 = 0.005;
C31 = 0.002;
C32 = 0.004;
dt = 0.01; % step size
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
x1(1) = 0.5;
y1(1) = 0.5;
x2(1) = 1;
y2(1) = 1;
x3(1) = 1.5;
y3(1) = 1.5;
for i = 2:6000
x1(i) = x1(i-1) + ( ( a1 - x1(i-1)^2 - y1(i-1)^2 )*x1(i-1) - omega1*y1(i-1) + G*C12*( x2(i-1) - x1(i-1) ) + G*C13*( x3(i-1) - x1(i-1) ) )*dt;
y1(i) = y1(i-1) + ( ( a1 - x1(i-1)^2 - y1(i-1)^2 )*y1(i-1) + omega1*x1(i-1) + G*C12*( y2(i-1) - y1(i-1) ) + G*C13*( y3(i-1) - y1(i-1) ) )*dt;
x2(i) = x2(i-1) + ( ( a2 - x2(i-1)^2 - y2(i-1)^2 )*x2(i-1) - omega2*y2(i-1) + G*C21*( x1(i-1) - x2(i-1) ) + G*C23*( x3(i-1) - x2(i-1) ) )*dt;
y2(i) = y2(i-1) + ( ( a2 - x2(i-1)^2 - y2(i-1)^2 )*y2(i-1) + omega2*x2(i-1) + G*C21*( y1(i-1) - y2(i-1) ) + G*C23*( y3(i-1) - y2(i-1) ) )*dt;
x3(i) = x3(i-1) + ( ( a3 - x3(i-1)^2 - y3(i-1)^2 )*x3(i-1) - omega3*y3(i-1) + G*C31*( x1(i-1) - x3(i-1) ) + G*C32*( x2(i-1) - x3(i-1) ) )*dt;
y3(i) = y3(i-1) + ( ( a3 - x3(i-1)^2 - y3(i-1)^2 )*y3(i-1) + omega3*x3(i-1) + G*C31*( y1(i-1) - y3(i-1) ) + G*C32*( y2(i-1) - y3(i-1) ) )*dt;
end
figure
hold on
plot3(x1, x2, x3)
view(45, 30)
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