How to solve the varying length of strings of double pendulum in the simulation?

Question

reema shrestha el 2 de Ag. de 2017

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Comentada: reema shrestha el 3 de Ag. de 2017

In my code,while the simulation is running,the length of the strings vary though the lengths are constant in the code. How can I solve it?

 function double_pendulum(m1,m2,l1,l2,theta1,theta2,tmax)
%value of the constants
  m1=0.1;
  m2=0.1;
  l1=0.5;
  l2=0.5;
  theta1=86;
  theta2=86;
  g=9.8;
  tmax=20;
  t(1)=0;
 %RK matrices
  c=[0 1/2 1/2 1];
  a=[0 0 0 0;0 1/2 0 0;0 0 1/2 0;0 0 0 1];
  w=[1/6 2/6 2/6 1/6];
  theta1=theta1*pi/180;
  theta2=theta2*pi/180;
  s(:,1)=[theta1 theta2 0 0]';
  F=@(t,s)[s(3) s(4) (-m2*l1*(s(3))^2*sin(s(1)-s(2))*cos(s(1)-s(2))+g*m2*sin(s(2))*cos(s(1)-s(2))-m2*l2*(s(4)^2)*sin(s(1)-s(2))-(m1+m2)*g*sin(s(1)))/l1*(m1+m2)-m2*l1*(cos(s(1)-s(2))^2) (m2*l2*(s(4)^2)*sin(s(1)-s(2))*cos(s(1)-s(2))+g*sin(s(1))*cos(s(1)-s(2))*(m1+m2)+l1*(s(3))^2*sin(s(1)-s(2))*(m1+m2)-g*sin(s(2))*(m1+m2))/l2*(m1+m2)-m2*l2*cos(s(1)-s(2))^2]';
  h=0.1;
  i=1;
   while t(i)<tmax %==================================================
 %Computation of position and angular Velocity
   k=zeros (length(s(:,1)),length(c));
   for j=1 : length(c)
        k(:,j)=h*F(t(i)+h*c(j),s(:,i)+k*a(j,:)')
    end
     s(:,i+1)=s(:,i)+k*w';
     t(i+1)=t(i)+h; 
     i=i+1;
end 
    x1=l1*sin(s(1,:));
    x2=l1*sin(s(1,:))+l2*sin(s(2,:));      % x- axis position of pendulum...... s(1,:)= All theta values
    y1=-l1*cos(s(1,:));  %y-axis position of pendulum
    y2=-l1*cos(s(1,:))-l2*cos(s(2,:));
    arraysize=size(t);
    axissize = [min(min(x1),min(x2)) max(max(x1),max(x2)) min(min(y1),min(y2)) max(max(y1),max(y2))];  % Sets axis size for animation.
    max(arraysize);
    pendulumtopx = sum(x1)/max(arraysize);
    pendulumtopy = sum(y1)/max(arraysize);
   for i = 1 : max(arraysize)
    plotarrayy = [pendulumtopy y1(i)];  % Plots solution at each time interval
    plotarrayx = [pendulumtopx x1(i)];
    plotarray2x = [x1(i) x2(i)];
    plotarray2y = [y1(i) y2(i)];
    plot(x1(i),y1(i),'o',x2(i),y2(i),'o','markersize',10,'markerfacecolor','g')
    hold on
    plot(x1(1:i),y1(1:i),'r');
    plot(x2(1:i),y2(1:i),'b');
    plot(plotarrayx,plotarrayy)
    plot(plotarray2x,plotarray2y)       
    title(['Double pendulum simulation']) 
    hold off
   xlabel('x','fontsize',12)   
   ylabel('y','fontsize',12)
   axis(axissize);
    pause(0.001);   % Pause time between animations.
   i=i+1;
end
 figure
 subplot(4,1,1)
 hold on
 plot(s(1,:),s(2,:),'b')
 title('Double pendulum phase portrait','fontsize',12)
        xlabel('theta1','fontsize',12)
        ylabel('theta2','fontsize',12)
 subplot(4,1,2)
 hold on
 plot(s(1,:),s(3,:),'r')
 title('Double pendulum phase portrait','fontsize',12)
        xlabel('theta1','fontsize',12)
        ylabel('velocity1','fontsize',12)
 %        axis([min(s1) max(s1) min(s2) max(s2)])
 subplot(4,1,3)% Plotting angle velocity vs time
 plot(t,s(3,:),t,0)
 title('Angle velocity vs Time Graph');
 xlabel('time');
 ylabel('\theta1(t)')
 subplot(4,1,4)
 plot(t,s(4,:),t,0)
 set(gca,'XLim',[0 tmax])
 title('Angle velocity vs Time Graph')
 xlabel('time')
 ylabel('\theta2(t)')

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Answer 1

James Tursa el 2 de Ag. de 2017

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Do you have a profile of how the string lengths change as a function of time? E.g., can you do something like this:

Have functions defined

function L = l1(t)
L = % put code here for length as function of t
end
function L = l2(t)
L = % put code here for length as function of t
end

And then make your function handle call l1 and l2 as functions of t:

F=@(t,s)[s(3) s(4) (-m2*l1(t)*(s(3))^2*sin(s(1)-s(2))*cos(s(1)-s(2))+g*m2*sin(s(2))*cos(s(1)-s(2))-m2*l2*(s(4)^2)*sin(s(1)-s(2))-(m1+m2)*g*sin(s(1)))/l1(t)*(m1+m2)-m2*l1(t)*(cos(s(1)-s(2))^2) (m2*l2(t)*(s(4)^2)*sin(s(1)-s(2))*cos(s(1)-s(2))+g*sin(s(1))*cos(s(1)-s(2))*(m1+m2)+l1(t)*(s(3))^2*sin(s(1)-s(2))*(m1+m2)-g*sin(s(2))*(m1+m2))/l2(t)*(m1+m2)-m2*l2(t)*cos(s(1)-s(2))^2]';

Of if the lengths are a function of something else, put that into the l1 and l2 function code.

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reema shrestha el 3 de Ag. de 2017

I tried changing the value of axissize and I think it worked. May be the problem arose because of it.

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How to solve the varying length of strings of double pendulum in the simulation?

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How to solve the varying length of strings of double pendulum in the simulation?

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