COVID-19 SEIR model
이전 댓글 표시
I tries to estimate the parameters of SEIR model using ode15s and fmincon. But it shows the following issue:
Local minimum possible. Constraints satisfied.
fmincon stopped because the size of the current step is less than
the value of the step size tolerance and constraints are
satisfied to within the value of the constraint tolerance.
the main code and functions are as following
Main Code
close all; clear all; clc
global t Confirmed Recovered Deaths Active N
%insert reported data
[Date, Days, Confirm, Recover, Death] = getDataCOVID_BD("C:\academic\MIST\COVID-19\SEIR-master\SEIR-master\Corona .xlsx", "Req_data_BD_new", [24,54]);
Confirmed = Confirm;
Recovered = Recover;
Deaths = Death;
Active = Confirmed-Recovered-Deaths; %quarantined cases
time = Date;
N = numel(time); %% number of time points
dt = 1;
tn = [0:N-1].*dt;
t = tn';
% Tdt =1/24;
% Ttime = datetime(time(1)):Tdt:datetime(Date(end));
% TN = numel(Ttime);
% Ttn = [0:TN-1].*dt;
% Tt = Ttn';
% Population = N
N = 1.61e8;
%% Parameter initial guess (WHO's prescribed minimum values are taken)
beta = 1;
alpha= 0.1;
gamma= 0.5;
delta= 0.07;
lamda= [0.1,0.05];
kappa= [0.1,0.05];
p0 = [beta,alpha,gamma,delta,lamda,kappa];
%% show initial objective
disp(['Initial SSE Objective: ' num2str(obj_1(p0))])
% optimize parameters
% no linear constraints
A = [];
b = [];
Aeq = [];
beq = [];
nlcon = [];
% optimize with fmincon
lb = [0.5,0.01,0.2,0.07,10,2,5,9]; % lower bound
ub = [1.2,0.12,1,0.5,45,15,9,10]; % upper bound
% options = optimoptions(@fmincon,'Algorithm','interior-point');
p = fmincon(@obj_1,p0,A,b,Aeq,beq,lb,ub,nlcon); %,options);
% show final objective
disp(['Final SSE Objective: ' num2str(obj_1(p))])
% optimized parameter values
beta = p(1);
alpha = p(2);
gamma = p(3);
delta =p(4);
lamda = [p(5),p(6)];
kappa = [p(7),p(8)];
disp(['beta: ' num2str(beta)])
disp(['alpha: ' num2str(alpha)])
disp(['gamma: ' num2str(gamma)])
disp(['delta: ' num2str(delta)])
disp(['lamda: ' num2str(lamda)])
disp(['kappa: ' num2str(kappa)])
% calculate model with updated parameters
Tp = sim_1(p);
%%
%%plot result
figure
semilogy(t,Tp(:,4),'r',t,Tp(:,5),'b',t,Tp(:,6),'k');
hold on
semilogy(t,Active,'ro',t,Recovered,'bo',t,Deaths,'ko');
% ylim([0,1.1*Npop])
ylabel('Number of cases')
xlabel('time (days)')
leg = {'Active(fitted)',...
'Recovered (fitted)','Death (fitted)',...
'Active(reported)',...
'Recovered (reported)','Death (reported)'};
legend(leg{:},'location','southoutside')
set(gcf,'color','w')
grid on
axis tight
set(gca,'yscale','lin')
sim_1 function
function T = sim_1(p)
global t Confirmed Recovered Deaths Active N
T = zeros(length(t),7);
T (1,1)= N -(3*Confirmed(1)); %S0
T (1,2)= Confirmed(1); %E0
T (1,3)= Confirmed(1); %I0
T (1,4)= Confirmed(1)-Recovered(1)-Deaths(1);%Q0
T (1,5)= Recovered(1); %R0
T (1,6)= Deaths (1); %D0
T (1,7)= 0; %P0
T0 = [ T(1,1),T(1,2),T(1,3),T(1,4),T(1,5),T(1,6),T(1,7)];
for i = 1:length(t)-1
ts = [t(i),t(i+1)];
sol = ode15s(@(t,x)SEIRQPD(t,x,N,p),ts,T0);
T0 = [sol.y(1,end),sol.y(2,end),sol.y(3,end),sol.y(4,end)...
sol.y(5,end),sol.y(6,end),sol.y(7,end)];
T(i+1,1) = T0(1);
T(i+1,2) = T0(2);
T(i+1,3) = T0(3);
T(i+1,4) = T0(4);
T(i+1,5) = T0(5);
T(i+1,6) = T0(6);
T(i+1,7) = T0(7);
end
end
obj_1 function
% define objective
function obj = obj_1(p)
global Confirmed Recovered Deaths Active
% simulate model
Tp = sim_1(p);
% calculate objective
obj = sum(((Tp(:,4)-Active)./Active).^2) ...
+ sum(((Tp(:,5)-Recovered)./Recovered).^2)...
+ sum(((Tp(:,6)-Deaths)./Deaths).^2);
end
SEIRQPD function
% define SEIRQDP model
function dTdt = SEIRQPD(t,x,N,p)
beta =p(1);
alpha=p(2);
gamma=p(3);
delta=p(4);
lamda=p(5);
kappa=p(7);
% SEIRQPD States
S = x(1);
E = x(2);
I = x(3);
Q = x(4);
R = x(5);
D = x(6);
P = x(7);
% SEIRQPD ODE
dSdt = -(beta*S*I/N)-(alpha*S);
dEdT = (beta*S*I/N)- (gamma*E);
dIdT = (gamma*E)-(delta*I);
dQdT = (delta*I)-(lamda*Q)-(kappa*Q);
dRdT = lamda*Q;
dDdT = kappa*Q;
dPdT = alpha*S;
dTdt = [dSdt,dEdT,dIdT,dQdT,dRdT,dDdT,dPdT]';
end
댓글 수: 2
Star Strider
2020년 5월 9일
There is no problem.
The fmincon function found a solution, although it warns that it could be a local minimum. Use the estimated ‘p’ parameters in the function to see if it fits your data.
Samia Sarothi
2020년 5월 9일
답변 (0개)
카테고리
도움말 센터 및 File Exchange에서 Problem-Based Optimization Setup에 대해 자세히 알아보기
2020년 5월 9일
2020년 5월 9일
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