function must return a column vector

조회 수: 1 (최근 30일)
Musa Abdullahi
Musa Abdullahi 2024년 7월 28일
편집: Walter Roberson 2024년 7월 28일
Hi, i am trying to plot some graphs for my my theses but i keep on getting error message..
find attached the code.. please help
function Juve_Model
clc;
%close all
global NO
%initial condition
Initial1 = [100,30,10,30];
hold on
for i=1:2:10
Initial=Initial1*i;
[t,u]=ode45(@hcv4,0:0.5:90, Initial);
subplot(2,2,1)
grid on
hold on
%axis([0 1400 0 1]);
plot(t,u(:,1),'linewidth',3);
xlabel('Time (days)')
ylabel('L')
%*********************************************
subplot(2,2,2)
grid on
hold on
plot(t,u(:,2),'linewidth',3);
xlabel('Time (days)')
ylabel('F_1')
%********************************************
subplot(2,2,3)
grid on
hold on
plot(t,u(:,3),'linewidth',3);
xlabel('Time (days)')
ylabel('F_2')
%*******************************************
subplot(2,2,4)
grid on
hold on
plot(t,u(:,4),'linewidth',3);
xlabel('Time (days)')
ylabel('M')
end
NO
end
function dy=hcv4(t,y)
%y=(L, F_1,F_2,M)=(y(1),y(2),y(3),y(4))
global NO
alpha=15; beta=0.1; q=0.3; gamma =0.7;
%beta=0.15; q=0.35; gamma=0.75;
K=1000; mu_L=0.35; d=0.45; mu_F1=0.15; mu_M=0.15; mu_F2=0.5;
% Basic Offspring (Reproduction) Number
NO=alpha*gamma*beta*q/(mu_F2*(mu_F1+gamma)*(beta+mu_L+d));
%Ordinary differential equation
dy(1)=alpha*(1-y(1)/K)*y(3)-(beta+mu_L+d)*y(1);
dy(2)=beta*q*y(1)-(mu_F1+gamma)*y(2);
dy(3)=gamma*y(2)-mu_F2*y(3);
dy(4)=beta*(1-q)*y(1)-mu_M*y(4);
end

이 질문에 답변하려면 로그인하십시오.

답변 (1개)

Torsten
Torsten 2024년 7월 28일
편집: Torsten 2024년 7월 28일
Allocate dy as a column vector before assigning values to it:
%Ordinary differential equation
dy = zeros(4,1);
dy(1)=alpha*(1-y(1)/K)*y(3)-(beta+mu_L+d)*y(1);
dy(2)=beta*q*y(1)-(mu_F1+gamma)*y(2);
dy(3)=gamma*y(2)-mu_F2*y(3);
dy(4)=beta*(1-q)*y(1)-mu_M*y(4);
And why do you need "NO" as a global variable ?
  댓글 수: 6
이전 댓글 4개 표시
Torsten
Torsten 2024년 7월 28일
편집: Torsten 2024년 7월 28일
Ran in:
Juve_Model()
function Juve_Model
clc;
%close all
%initial condition
Initial1 = [100,30,10,30];
index = 0;
for i=1:2:10
Initial=Initial1*i;
[t,u]=ode45(@hcv4,0:0.5:90, Initial);
index = index + 1;
T{index} = t;
U{index} = u;
end
figure(1)
hold on
for i = 1:5
plot(T{i},U{i}(:,1),'linewidth',3)
end
hold off
grid on
xlabel('Time (days)')
ylabel('L')
figure(2)
hold on
for i = 1:5
plot(T{i},U{i}(:,2),'linewidth',3)
end
hold off
grid on
xlabel('Time (days)')
ylabel('F_1')
figure(3)
hold on
for i = 1:5
plot(T{i},U{i}(:,3),'linewidth',3)
end
hold off
grid on
xlabel('Time (days)')
ylabel('F_2')
figure(4)
hold on
for i = 1:5
plot(T{i},U{i}(:,4),'linewidth',3)
end
hold off
grid on
xlabel('Time (days)')
ylabel('M')
end
function dy=hcv4(t,y)
%y=(L, F_1,F_2,M)=(y(1),y(2),y(3),y(4))
alpha=15; beta=0.1; q=0.3; gamma =0.7;
%beta=0.15; q=0.35; gamma=0.75;
K=1000; mu_L=0.35; d=0.45; mu_F1=0.15; mu_M=0.15; mu_F2=0.5;
% Basic Offspring (Reproduction) Number
NO=alpha*gamma*beta*q/(mu_F2*(mu_F1+gamma)*(beta+mu_L+d));
%Ordinary differential equation
dy = zeros(4,1);
dy(1)=alpha*(1-y(1)/K)*y(3)-(beta+mu_L+d)*y(1);
dy(2)=beta*q*y(1)-(mu_F1+gamma)*y(2);
dy(3)=gamma*y(2)-mu_F2*y(3);
dy(4)=beta*(1-q)*y(1)-mu_M*y(4);
end
Musa Abdullahi
Musa Abdullahi 2024년 7월 28일
Thanks alot..

댓글을 달려면 로그인하십시오.

카테고리

Help CenterFile Exchange에서 Mathematics에 대해 자세히 알아보기

태그

Community Treasure Hunt

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

Start Hunting!

Translated by