find equilirium point with all parameter known

12 views (last 30 days)
Hello
I have a mathematical model for degree 7 non-linear system. I have calculated the equilibrium points for a disease-free system (x2=0 and x3=0).
However, it is not possible to find endemic equilibrium points manually, so it is necessary to use numerical methods. but I don't know how to use matlab's feature to get the endemic equilibrium point (x2≠0 , x3≠0) .
can you help me change this script, here i already have the parameter value.
Pg=0.0068;
Ps=0.012;
Pr=0.006;%0.012 0.002 0.006
pe=0.002;
beta1=0.00702;
beta2=0.00702;
beta3=0.00702;
d4=1.7143;
u=0.05;
a1=1.10;
a2=4.6205;
a4=4.6666;
a5=1.10;
c1=0.0002;
c2=0.032;
c4=0.032;
c5=0.0002;
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;
psi=0.01813;
delta=2.4*10^-4;
gamma=0.136;
alpha=2.0;
%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 = 1000;
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,u,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3,psi, delta, gamma, alpha, Pr);
function hdot = glioma0(t,x,Pg,Ps,pe, beta1, beta2,a1, a2, a4, a5, c1,c2,c4,c5,u,d10,d11,d12,d20,d21,d22,d50,d51,d52,d4,tau,mu, beta3,psi, delta, gamma,alpha, 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));
v=0.0;
Phi=3.3*10^-3;
H=0;
if x(6)>0 || x(7)>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

Answers (1)

Torsten
Torsten on 3 Apr 2023
I don't know if this solves your problem, but of course you have to reverse the order of the commands here:
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));
You cannot use the if-statement using hdot(4) before it is computed.

Categories

Find more on Language Fundamentals in Help Center and File Exchange

Products


Release

R2021a

Community Treasure Hunt

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

Start Hunting!