Clear Filters
Clear Filters

trouble in plotting file differential equation contain function

1 view (last 30 days)
Latifah
Latifah on 9 Feb 2023
Commented: Latifah on 9 Feb 2023
Ran in:
I want to plot my script, glioma_if but it doesn't work, can you help me to plot?
close all; clear all; clc;
Pg=0.0068;
Ps=0.012;
Pr=0.002;%0.012 0.002 0.006
pe=0.002;
beta1=0.018;
beta2=0.0018;
beta3=0.0018;
d4=1.7143;
a1=1;
a2=1;
a4=4.6666;
a5=1;
c1=0.0002;
c2=0.032;
c4=0.032;
c5=0.0002;
v=2.0;
d10=1.2*10^-7;
d11=4.2*10^-8;
d12=1.0*10^-7;
d20=0.2051;
d21=0.00431;
d22=19.4872;
d50=1.2*10^-7;
d51=4.2*10^-8;
d52=1.0*10^-7;
tau=0.1615;
mu=0.00371;
Phi=2.0;
psi=0.2;
delta=2.4*10^-4;
gamma=0.136;
%t = linspace(0,0.1,100)';
%tspan = [0 1000];
X0 = [1.0 0.01 0.0 1.0 0.0];
t0 = 0;
tf = 800;
options = [];
%options=odeset('Abstol', 1e-6, 'Reltol', 1e-6);
[t,y0]=ode45(@glioma0,[t0:0.1:tf],X0,options,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
Index exceeds the number of array elements. Index must not exceed 5.

Error in solution>glioma0 (line 95)
if (x(6)>0)

Error in odearguments (line 92)
f0 = ode(t0,y0,args{:}); % ODE15I sets args{1} to yp0.

Error in ode45 (line 107)
odearguments(odeIsFuncHandle,odeTreatAsMFile, solver_name, ode, tspan, y0, options, varargin);
[t,y01]=ode45(@glioma01,[t0:0.1:tf],X0,options,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
[t,y1]=ode45(@glioma1,[t0:0.1:tf],X0,options,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
figure
subplot(1,1,1)
%plot(t,y0(:,1),'b','LineWidth',2);
plot(t,y0(:,1),'b',t,y01(:,1),'r',t,y1(:,1),'k');
title('g(t)');
%axis([0 750 0 1]);
%subplot(4,1,2)
%plot(t,y0(:,2),'r','LineWidth',2);
%plot(t,y0(:,2),'b',t,y01(:,2),'r',t,y1(:,2),'k');
%title('s(t)');
%axis([0 750 0 1]);
%subplot(4,1,3)
%plot(t,y0(:,3),'g','LineWidth',2);
%plot(t,y0(:,3),'b',t,y01(:,3),'r',t,y1(:,3),'k');
%title('r(t)');
%axis([0 750 0 1]);
%subplot(4,1,4)
%plot(t,y0(:,4),'b',t,y01(:,4),'r',t,y1(:,4),'k');%'LineWidth',2);
%title('n(t)');
%axis([0 750 0 1]);
%subplot(5,1,5)
%plot(t,y(:,4),'k','LineWidth',2);
%plot(t,y(:,5),'k','LineWidth',2);
%title('q(t)');
%axis([0 750 0 1]);
%figure
%plot(t,y0(:,5),'k','LineWidth',2);
%title('q(t)');
function hdot = glioma0(t,x,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
% The time-dependent term is A * sin(w0 * t - theta)
%H = 1*sin(-1*t);
%G = x(1)
hdot=zeros(7,1);
%H= heaviside(x(5));
u=0.0;
Phi=200.0;
H=0;
if (x(6)>0)
H = 1;
%else%if (x(5)<=0);
% H = 0;
end
hdot(1)=Pg*x(1)*(1-x(1))-beta1*x(1)*(x(2)+x(3))-(d10+d11*x(4)+d12*x(7))*(x(1)*x(6))/(a1+x(1));
hdot(2)=Ps*x(2)*(1-(x(2)+x(3))/1+tau*x(4))-beta2*x(1)*x(2)-u*x(2)*H-(d20+d21*x(4)+d22*x(7))*(x(2)*x(6))/(a2+x(2));
if (hdot(4)<0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H+v*hdot(4)*x(3);
elseif (hdot(4)>0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H;
end
hdot(4)=mu*(x(2)+x(3))+pe*x(4)*(1-x(4))-d4*((x(4)*x(7))/a4+x(4));
if (hdot(1)<0)
hdot(5)=alpha*hdot(1)*x(5)-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
elseif (hdot(1)>0)
hdot(5)=-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
end
hdot(6)=Phi-(psi+c1*x(1)/(a1+x(1))+c2*x(2)/(a2+x(2))+c5*x(5)/(a5+x(5)))*x(6);
hdot(7)=delta-(gamma+c4*x(4)/(a4+x(4)))*x(7);
%hdot = hdot';
%hdot=[hdot(:);H,h1];
% To make xdot a column
% End of FUN1.M
end
function hdot = glioma01(t,x,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
% The time-dependent term is A * sin(w0 * t - theta)
%H = 1*sin(-1*t);
%G = x(1)
hdot=zeros(7,1);
%H= heaviside(x(5));
u=0.001;
Phi=200.0;
H=0;
if (x(6)>0)
H = 1;
%else%if (x(5)<=0);
% H = 0;
end
hdot(1)=Pg*x(1)*(1-x(1))-beta1*x(1)*(x(2)+x(3))-(d10+d11*x(4)+d12*x(7))*(x(1)*x(6))/(a1+x(1));
hdot(2)=Ps*x(2)*(1-(x(2)+x(3))/1+tau*x(4))-beta2*x(1)*x(2)-u*x(2)*H-(d20+d21*x(4)+d22*x(7))*(x(2)*x(6))/(a2+x(2));
if (hdot(4)<0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H+v*hdot(4)*x(3);
elseif (hdot(4)>0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H;
end
hdot(4)=mu*(x(2)+x(3))+pe*x(4)*(1-x(4))-d4*((x(4)*x(7))/a4+x(4));
if (hdot(1)<0)
hdot(5)=alpha*hdot(1)*x(5)-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
elseif (hdot(1)>0)
hdot(5)=-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
end
hdot(6)=Phi-(psi+c1*x(1)/(a1+x(1))+c2*x(2)/(a2+x(2))+c5*x(5)/(a5+x(5)))*x(6);
hdot(7)=delta-(gamma+c4*x(4)/(a4+x(4)))*x(7);
%hdot = hdot';
%hdot=[hdot(:);H,h1];
% To make xdot a column
% End of FUN1.M
end
function hdot = glioma1(t,x,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
% The time-dependent term is A * sin(w0 * t - theta)
%H = 1*sin(-1*t);
%G = x(1)
hdot=zeros(7,1);
%H= heaviside(x(5));
u=0.01;
Phi=200.0;
H=0;
if (x(6)>0)
H = 1;
%else%if (x(5)<=0);
% H = 0;
end
hdot(1)=Pg*x(1)*(1-x(1))-beta1*x(1)*(x(2)+x(3))-(d10+d11*x(4)+d12*x(7))*(x(1)*x(6))/(a1+x(1));
hdot(2)=Ps*x(2)*(1-(x(2)+x(3))/1+tau*x(4))-beta2*x(1)*x(2)-u*x(2)*H-(d20+d21*x(4)+d22*x(7))*(x(2)*x(6))/(a2+x(2));
if (hdot(4)<0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H+v*hdot(4)*x(3);
elseif (hdot(4)>0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H;
end
hdot(4)=mu*(x(2)+x(3))+pe*x(4)*(1-x(4))-d4*((x(4)*x(7))/a4+x(4));
if (hdot(1)<0)
hdot(5)=alpha*hdot(1)*x(5)-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
elseif (hdot(1)>0)
hdot(5)=-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
end
hdot(6)=Phi-(psi+c1*x(1)/(a1+x(1))+c2*x(2)/(a2+x(2))+c5*x(5)/(a5+x(5)))*x(6);
hdot(7)=delta-(gamma+c4*x(4)/(a4+x(4)))*x(7);
%hdot = hdot';
%hdot=[hdot(:);H,h1];
% To make xdot a column
% End of FUN1.M
end

Sign in to answer this question.

Accepted Answer

Latifah
Latifah on 9 Feb 2023
I've added the initial condition, but it still error , can you fix it?
close all; clear all; clc;
Pg=0.0068;
Ps=0.012;
Pr=0.002;%0.012 0.002 0.006
pe=0.002;
beta1=0.018;
beta2=0.0018;
beta3=0.0018;
d4=1.7143;
a1=1;
a2=1;
a4=4.6666;
a5=1;
c1=0.0002;
c2=0.032;
c4=0.032;
c5=0.0002;
v=2.0;
d10=1.2*10^-7;
d11=4.2*10^-8;
d12=1.0*10^-7;
d20=0.2051;
d21=0.00431;
d22=19.4872;
d50=1.2*10^-7;
d51=4.2*10^-8;
d52=1.0*10^-7;
tau=0.1615;
mu=0.00371;
Phi=2.0;
psi=0.2;
delta=2.4*10^-4;
gamma=0.136;
%t = linspace(0,0.1,100)';
%tspan = [0 1000];
X0 = [1.0 0.01 0.0 1.0 0.0 0.01 0.01];
t0 = 0;
tf = 800;
options = [];
%options=odeset('Abstol', 1e-6, 'Reltol', 1e-6);
[t,y0]=ode45(@glioma0,[t0:0.1:tf],X0,options,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
[t,y01]=ode45(@glioma01,[t0:0.1:tf],X0,options,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
[t,y1]=ode45(@glioma1,[t0:0.1:tf],X0,options,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
figure
subplot(1,1,1)
%plot(t,y0(:,1),'b','LineWidth',2);
plot(t,y0(:,1),'b',t,y01(:,1),'r',t,y1(:,1),'k');
title('g(t)');
%axis([0 750 0 1]);
%subplot(4,1,2)
%plot(t,y0(:,2),'r','LineWidth',2);
%plot(t,y0(:,2),'b',t,y01(:,2),'r',t,y1(:,2),'k');
%title('s(t)');
%axis([0 750 0 1]);
%subplot(4,1,3)
%plot(t,y0(:,3),'g','LineWidth',2);
%plot(t,y0(:,3),'b',t,y01(:,3),'r',t,y1(:,3),'k');
%title('r(t)');
%axis([0 750 0 1]);
%subplot(4,1,4)
%plot(t,y0(:,4),'b',t,y01(:,4),'r',t,y1(:,4),'k');%'LineWidth',2);
%title('n(t)');
%axis([0 750 0 1]);
%subplot(5,1,5)
%plot(t,y(:,4),'k','LineWidth',2);
%plot(t,y(:,5),'k','LineWidth',2);
%title('q(t)');
%axis([0 750 0 1]);
%figure
%plot(t,y0(:,5),'k','LineWidth',2);
%title('q(t)');
function hdot = glioma0(t,x,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
% The time-dependent term is A * sin(w0 * t - theta)
%H = 1*sin(-1*t);
%G = x(1)
hdot=zeros(7,1);
%H= heaviside(x(5));
u=0.0;
Phi=200.0;
H=0;
if (x(6)>0)
H = 1;
%else%if (x(5)<=0);
% H = 0;
end
hdot(1)=Pg*x(1)*(1-x(1))-beta1*x(1)*(x(2)+x(3))-(d10+d11*x(4)+d12*x(7))*(x(1)*x(6))/(a1+x(1));
hdot(2)=Ps*x(2)*(1-(x(2)+x(3))/1+tau*x(4))-beta2*x(1)*x(2)-u*x(2)*H-(d20+d21*x(4)+d22*x(7))*(x(2)*x(6))/(a2+x(2));
if (hdot(4)<0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H+v*hdot(4)*x(3);
elseif (hdot(4)>0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H;
end
hdot(4)=mu*(x(2)+x(3))+pe*x(4)*(1-x(4))-d4*((x(4)*x(7))/a4+x(4));
if (hdot(1)<0)
hdot(5)=alpha*hdot(1)*x(5)-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
elseif (hdot(1)>0)
hdot(5)=-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
end
hdot(6)=Phi-(psi+c1*x(1)/(a1+x(1))+c2*x(2)/(a2+x(2))+c5*x(5)/(a5+x(5)))*x(6);
hdot(7)=delta-(gamma+c4*x(4)/(a4+x(4)))*x(7);
%hdot = hdot';
%hdot=[hdot(:);H,h1];
% To make xdot a column
% End of FUN1.M
end
function hdot = glioma01(t,x,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
% The time-dependent term is A * sin(w0 * t - theta)
%H = 1*sin(-1*t);
%G = x(1)
hdot=zeros(7,1);
%H= heaviside(x(5));
u=0.001;
Phi=200.0;
H=0;
if (x(6)>0)
H = 1;
%else%if (x(5)<=0);
% H = 0;
end
hdot(1)=Pg*x(1)*(1-x(1))-beta1*x(1)*(x(2)+x(3))-(d10+d11*x(4)+d12*x(7))*(x(1)*x(6))/(a1+x(1));
hdot(2)=Ps*x(2)*(1-(x(2)+x(3))/1+tau*x(4))-beta2*x(1)*x(2)-u*x(2)*H-(d20+d21*x(4)+d22*x(7))*(x(2)*x(6))/(a2+x(2));
if (hdot(4)<0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H+v*hdot(4)*x(3);
elseif (hdot(4)>0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H;
end
hdot(4)=mu*(x(2)+x(3))+pe*x(4)*(1-x(4))-d4*((x(4)*x(7))/a4+x(4));
if (hdot(1)<0)
hdot(5)=alpha*hdot(1)*x(5)-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
elseif (hdot(1)>0)
hdot(5)=-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
end
hdot(6)=Phi-(psi+c1*x(1)/(a1+x(1))+c2*x(2)/(a2+x(2))+c5*x(5)/(a5+x(5)))*x(6);
hdot(7)=delta-(gamma+c4*x(4)/(a4+x(4)))*x(7);
%hdot = hdot';
%hdot=[hdot(:);H,h1];
% To make xdot a column
% End of FUN1.M
end
function hdot = glioma1(t,x,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,v,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3, Phi, psi, delta, gamma, Pr);
% The time-dependent term is A * sin(w0 * t - theta)
%H = 1*sin(-1*t);
%G = x(1)
hdot=zeros(7,1);
%H= heaviside(x(5));
u=0.01;
Phi=200.0;
H=0;
if (x(6)>0)
H = 1;
%else%if (x(5)<=0);
% H = 0;
end
hdot(1)=Pg*x(1)*(1-x(1))-beta1*x(1)*(x(2)+x(3))-(d10+d11*x(4)+d12*x(7))*(x(1)*x(6))/(a1+x(1));
hdot(2)=Ps*x(2)*(1-(x(2)+x(3))/1+tau*x(4))-beta2*x(1)*x(2)-u*x(2)*H-(d20+d21*x(4)+d22*x(7))*(x(2)*x(6))/(a2+x(2));
if (hdot(4)<0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H+v*hdot(4)*x(3);
elseif (hdot(4)>0)
hdot(3)=Pr*x(3)*(1-(x(2)+x(3))/1+tau*x(4))-beta3*x(1)*x(3)+u*x(2)*H;
end
hdot(4)=mu*(x(2)+x(3))+pe*x(4)*(1-x(4))-d4*((x(4)*x(7))/a4+x(4));
if (hdot(1)<0)
hdot(5)=alpha*hdot(1)*x(5)-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
elseif (hdot(1)>0)
hdot(5)=-(d50+d51*x(4)+d52*x(7))*(x(5)*x(6))/a5+x(5);
end
hdot(6)=Phi-(psi+c1*x(1)/(a1+x(1))+c2*x(2)/(a2+x(2))+c5*x(5)/(a5+x(5)))*x(6);
hdot(7)=delta-(gamma+c4*x(4)/(a4+x(4)))*x(7);
%hdot = hdot';
%hdot=[hdot(:);H,h1];
% To make xdot a column
% End of FUN1.M
end
  5 Comments
Show 3 older comments
Torsten
Torsten on 9 Feb 2023
What if I just swap positions? can it be true?
Yes, of course. hdot(4) must be calculated before you use it in the if-statement to derive hdot(3).
But I would really be surprised if the integrator wouldn't come into trouble with all your if-statements in the function routines.

Sign in to comment.

More Answers (0)

Categories

Find more on Triangulation Representation in Help Center and File Exchange

Tags

Products


Release

R2021a

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!