% Nordic data
% close all;
% clear all;
% clc;
%
% A = [0.582524272 1.775558091 2.396400663 1.15442849
% 4.077669903 6.663939896 39.47990442 3.027863288
% 21.84466019 15.40826211 35.45289504 7.07123329
% 52.13592233 5.475642047 39.62169648 2.283024419
% ];
% t_final = 40;
% %D = 0:1:60;
% t = 1:0.01:t_final;
% D = A(:,1);
%
% x = zeros(length(t),length(D)*2);
% r1 = 0.6:0.01:0.9;
%
% for j = 1:length(r1)
% r = r1(j);
% clear x;
% for i = 1:length(D)
% i
% x(:,2*i-1:2*i) = ode4(@sys_ndRadNordic,t,[1;0],D(i),r);
% PMCells_after_Saturation(i) = x(end,2*i);
% ERR_thyroid(i) = x(end,2*i); %
% end
%
% Ncells_EndofRad = x(end,1*i);
% PMcells_EndofRad = x(end,2*i);
%
% figure(1)
% hold on
% plot(D,ERR_thyroid)
%
% %------- Thyroid ERR data due to HL from Shuryak--------%
%
% x = A(:,1);
% y = A(:,2);
%
% U = A(:,3);
% L = A(:,4);
%
% U1 = U-y;
% L1 = y-L;
%
% errorbar(x,y,L1,U1,'bo')
% hold off
%
% Y1 = PMCells_after_Saturation;
% Y2 = A(:,2)';
% E = (Y1-Y2).^2;
% E1(j) = sqrt(sum(E)/length(Y1))
%
% end
%
% figure
% plot(r1,E1)
% %
% % This code is for implementing RT
% % Radiation therapy first and then Chemotherapy
close all;
clear all;
clc;
A = [0.582524272 1.775558091 2.396400663 1.15442849
4.077669903 6.663939896 39.47990442 3.027863288
21.84466019 15.40826211 35.45289504 7.07123329
52.13592233 5.475642047 39.62169648 2.283024419
];
t_final = 40;
D = 0:1:60;
t = 1:0.01:t_final;
x = zeros(length(t),length(D)*2);
for i = 1:length(D)
i
x(:,2*i-1:2*i) = ode4(@sys_ndRadLESG,t,[1;0],D(i));
PMCells_after_Saturation(i) = x(end,2*i);
ERR_thyroid(i) = x(end,2*i);
end
Ncells_EndofRad = x(end,1*i);
PMcells_EndofRad = x(end,2*i);
figure(1)
hold on
plot(D,ERR_thyroid)
%plot(D,PMCells_after_Saturation)
%------- Thyroid ERR data --------%
x = A(:,1);
y = A(:,2);
U = A(:,3);
L = A(:,4);
U1 = U-y;
L1 = y-L;
errorbar(x,y,L1,U1,'bo')
hold off
%Y1 = PMCells_after_Saturation;
%Y2 = A(:,2)';
%E = (Y1-Y2).^2;
%E1(j) = sum(E)/length(Y1)
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