data not showing up

13 Mag 2018
1 Risposta
Aggiornato 15 Mag 2018
2 Visualizzazioni (30 giorni)

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IC=[0 0 0 0 0 0];
ti=0;
tf=20;
tspan=[ti,tf];
h = 1;
%Scenario 1
fMu1=@(t,y)Mu(t,y,ti,tf,1);
[t1,y1]=ode45(fMu1,tspan,IC);
figure()
hold on
subplot(3,1,1)
plot(t1,y1(:,1),t1,y1(:,3),t1,y1(:,5))
legend('x1', 'x2', 'x3')
xlabel('t')
ylabel('positions');
title('Scenario 1: Positions')
subplot(3,1,2)
plot(t1,y1(:,2),t1,y1(:,4),t1,y1(:,6))
legend('v1', 'v2', 'v3')
xlabel('t')
ylabel('velocities');
title('scenario 1: velocities')
%excitation
%subplot(3,1,3)
hold off
sc1res1 = myEuler3(fMu1,IC,ti,tf,h)
prob1res1 = array2table(sc1res1', 'VariableNames',{'t','x1','v1','x2','v2','x3','v3'})
sc1res2 = myHeun(fMu1,IC,ti,tf,h)
prob1res2 = array2table(sc1res2', 'VariableNames',{'t','x1','v1','x2','v2','x3','v3'})
sc1res3 = myRK4(fMu1,IC,ti,tf,h);
prob1res3 = array2table(sc1res3', 'VariableNames',{'t','x1','v1','x2','v2','x3','v3'})
When I run this function, the plots show up fine but in the myEuler3 and myHeun cases, all the columns except the first show up as all zeros. The myRK4 case also runs fine. I don't think it's a problem with the functions because they've run perfectly in other examples but i'll post them here anyway.
function [sol] = myEuler3(F, y0, ti, tf, h)
t = ti:h:tf;
y = zeros(length(y0),length(t));
y(:,1) = y0;
for i = 2:length(t)
y(:,i) = y(:,i-1) + h*F(t(i-1),y(:,i-1));
end
sol = [ t; y ];
end
function [sol] = myHeun(F, y0, ti, tf, h)
t = ti:h:tf;
y = zeros(length(y0),length(t));
y(:,1) = y0;
for i = 2:length(t)
yp = y(:,i-1) + h*F(t(i-1),y(:,i-1));
y(:,i) = y(:,i-1) + 0.5*h*(F(t(i-1),y(:,i-1))+F(t(i),yp));
end
sol = [ t; y ];
end

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Susan Santiago
Susan Santiago il 13 Mag 2018
I forgot to add the Mu function
function f = Mu(t,y,ti,tf,n)
m1 = 55;
m2 = 400;
m3 = 100;
k1 = 230000;
k2 = 30000;
k3 = 50000;
k4 = 3000;
n2 = 1500;
n3 = 4000;
n4 = 700;
tm = (ti+tf)/2;
t1 = tf/4;
L0 = 5;
v = 15;
A = 0.03;
M =[0 1 0 0 0 0;
-(k1+k2)/m1 -(n2+n4)/m1 k2/m1 n4/m1 0 n4/m1;
0 0 0 1 0 0;
k2/m2 n2/m2 -(k3+k2)/m2 -(n3+n2)/m2 k3/m2 n3/m2;
0 0 0 0 0 1;
k4/m3 n4/m3 k3/m3 n3/m3 -(k3+k4)/m3 -(n3+n4)/m3];
switch n
case 1
u = (A/2)*(1-cos(2*pi*v*t/L0));
case 2
u = 1*(t<tm)+(-1)*(t>=tm);
case 3
u = 0*(t<tm)+1*(t>=tm);
case 4
u = 1*(t<tm)+0*(t>=tm);
case 5
u = (A*t)*(t<=tm)+0*(t>tm);
case 6
u1 = A*t;
u2 = A*(t-2*tm);
u = u1.*(t<=tm)+u2.*(t>tm);
case 7
u1 = A*t;
u2 = A*(-t+4*t1);
u3 = A*(-t+3*t1);
u = u1.*(t<=t1)+u2.*((t>=t1)&(t<=2*t1)) +u3.*(t>=2*t1);
case 8
u = A.*((t>=t1)&(t<=2*t1));
end
vect=[0;-k1*u/m1;0;0;0;0];
f = M*y+vect;
end
KALYAN ACHARJYA
KALYAN ACHARJYA il 13 Mag 2018
Modificato: KALYAN ACHARJYA il 13 Mag 2018
Undefined function or variable 'myRK4'? Can you clarify your question?
Which data not showing up, Is this third plot, %excitation?
Susan Santiago
Susan Santiago il 13 Mag 2018
as I said, the data for myEuler3 and myHeun are the ones with data not showing up. I didn't include the function for myRK4 since that one ran properly and I didn't want to put too many functions in the original problem but for clarity, here it is.
function [sol] = myRK4(dy, y0, ti, tf, h)
t = ti:h:tf;
y = zeros(length(y0),length(t));
y(:,1) = y0;
for i = 2:length(t)
t1 = t(i-1);
y1 = y(:,i-1);
k1 = dy(t1,y1);
t2 = t(i-1)+(0.5*h);
y2 = y(:,i-1)+(0.5*k1*h);
k2 = dy(t2,y2);
t3 = t(i-1)+0.5*h;
y3 = y(:,i-1)+0.5*k2*h;
k3 = dy(t3,y3);
t4 = t(i-1)+h;
y4 = y(:,i-1)+k3*h;
k4 = dy(t4,y4);
y(:,i) = y1 + (h/6)*(k1+2*k2+2*k3+k4);
end
sol = [t ; y];
end
Susan Santiago
Susan Santiago il 13 Mag 2018
also the third plot, I haven't finished working on which is why it's commented
KALYAN ACHARJYA
KALYAN ACHARJYA il 13 Mag 2018

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KALYAN ACHARJYA
KALYAN ACHARJYA il 13 Mag 2018

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Susan Santiago
Susan Santiago il 13 Mag 2018
That's what shows up when I run it but that data is not correct. I don't know why i'm getting all zeros
Stephan
Stephan il 14 Mag 2018
Modificato: Stephan il 14 Mag 2018
Hi Susan,
i couldnt solve your problem until now, but I was able to narrow the problem down a bit. The issue happens when you call the Input argument F of your function:
function [sol_euler3] = myEuler3(F, y0, ti, tf, h)
t = ti:h:tf;
y = zeros(length(y0),length(t));
y(:,1) = y0;
for i = 2:length(t)
% original: y(:,i) = y(:,i-1) + h*F(t(i-1),y(:,i-1));
% works until here: y(:,i) = y(:,i-1) + h;
% doesnt work: y(:,i) = F(t(i-1),y(:,i-1));
end
sol_euler3 = [ t; y ];
end
If you comment out the section "works until here" and execute the code, what you expect happens. However, invoking F (t (i-1), y (:, i-1)) always ends with the result 0, which always results in the result you see because of the multiplication and addition to the previous loop pass.
I'm not sure what you want to achieve when you call F. Anyway, here is your problem. That is also the reason why there is no problem in the function myRK4 - because F does not occur there.
Maybe you can describe what the call of F should actually reach / calculate (Should F (t, y) be the solution of your ode45 calculation?), then somebody here will be able to solve your problem quickly.
Best regards
Stephan
Susan Santiago
Susan Santiago il 14 Mag 2018
F is the function being evaluated. it's the same as the function being evaluated with ode45. When the function runs, the results from each method should be similar. How do I still solve using Euler's method while avoiding the issue that you point out?
Stephan
Stephan il 15 Mag 2018
Modificato: Stephan il 15 Mag 2018
Hi Susan,
while trying to understand the issue i found that:
_
This is the result of your computation which is working. When i look at the dimensions you calculate i cant believe that this is a correct calculation.
The dimensions explode with each iteration step ending in a range from -2*10e116 up to 5*10e114 (!). Is these order of magnitude actually correct for your problem?
What im still trying to understand is, what F(t,y) is exactly doing (or should do...)
So far I have understood that you call the function Mu via the function handle fMu1, which you give t and y. Furthermore, I believe that you want to evaluate this calculation for a period of 20 seconds every second.
What I did not understand is where the y comes from, that you want to pass the function handle. In addition to the above-mentioned (suspected) problem, there will always be 0, because the function call at time 0 with the y0 = IC equals zero. In the next iteration step, you then evaluate from F (t = 1, y = 1) -> which corresponds to the call of the function of F (1, [0; 0; 0; 0; 0,0]) -> This yields again 0.
Best regards
Stephan

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Richiesto:

Susan Santiago
Susan Santiago
il 13 Mag 2018

Modificato:

Stephan
Stephan
il 15 Mag 2018

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