i want to add a loop so that it works like this.

1 Ansicht (letzte 30 Tage)
SAHIL SAHOO
SAHIL SAHOO am 10 Okt. 2022
Kommentiert: SAHIL SAHOO am 11 Okt. 2022
ti = 0;
tf = 1E-3;
tspan=[ti tf];
KC = 4E-3;
y0= [ (10e-6)*rand(2,1); ((-3.14).*rand(1,1) + (3.14).*rand(1,1));
(10e-6)*rand(2,1); ((-3.14).*rand(1,1) + (3.14).*rand(1,1));
(10e-6)*rand(2,1); ((-3.14).*rand(1,1) + (3.14).*rand(1,1));
(10e-6)*rand(2,1); ((-3.14).*rand(1,1) + (3.14).*rand(1,1));
(10e-6)*rand(2,1); ((-3.14).*rand(1,1) + (3.14).*rand(1,1));
((-3.14).*rand(5,1) + (3.14).*rand(5,1))];
yita_mn = [
0 1 0 0 1;
1 0 1 0 0;
0 1 0 1 0;
0 0 1 0 1;
1 0 0 1 0;
]*(KC);
N = 5;
t = 1E-3;
[T,Y]= ode45(@(t,y) rate_eq(t,y,yita_mn,N),tspan,y0);
figure(1)
plot(T./t,(Y(:,16)),'linewidth',0.8);
hold on
for m = 16:20
plot(T./t,(Y(:,m)),'linewidth',0.8);
end
hold off
grid on
xlabel("time")
ylabel("phase difference")
set(gca,'fontname','times New Roman','fontsize',18,'linewidth',1.8);
function dy = rate_eq(t,y,yita_mn,N,o)
dy = zeros(4*N,1);
dGdt = zeros(N,1);
dAdt = zeros(N,1);
dOdt = zeros(N,1);
P = 0.05;
a = 5;
T = 2E3;
Gt = y(1:3:3*N-2);
At = y(2:3:3*N-1);
Ot = y(3:3:3*N-0);
k = 4E-3;
for i = 1:N
dGdt(i) = (P - Gt(i) - (1 + 2.*Gt(i)).*(At(i))^2)./T ;
dAdt(i) = (Gt(i).*(At(i)));
dOdt(i) = -a.*(Gt(i));
for j = 1:N
dAdt(i) = dAdt(i)+yita_mn(i,j).*(At(j))*sin(Ot(j)-Ot(i));
dOdt(i) = dOdt(i)+yita_mn(i,j).*((At(j)/At(i)))*cos(Ot(j)-Ot(i));
end
n1 = (1:5)';
n2 = circshift(n1,-1);
n16 = n1 + 15;
n17 = circshift(n16,-1);
n20 = circshift(n16,1);
j2 = 3*(1:5)-1;
j5 = circshift(j2,-1);
j8 = circshift(j2,-2);
j19 = circshift(j2,1);
%%%%%%%%%%%%%%%%%%%%%%%%%%% here i wanted to add a loop so that when
% Gt(i) = Gt(1) then the Gt(i+1) = 2 and when the Gt(i) = Gt(5) then the Gt(i+1) = Gt(1)
%i dont know how to addd this loop pelase help me in it.
dy(n16) = -a.*(Gt(i+1) -Gt(i)) - (k).*(y(j2)./y(j5)).*sin(y(n16)) - (k).*(y( j5)./y(j2)).*sin(y(n16)) + (k).*(y(j8)./y(j5)).*sin(y(n17)) + (k).*(y(j19)./y(j2)).*sin(y(n20));
end
dy(1:3:3*N-2) = dGdt;
dy(2:3:3*N-1) = dAdt;
dy(3:3:3*N-0) = dOdt;
end

Antworten (1)

Jeffrey Clark
Jeffrey Clark am 10 Okt. 2022
Bearbeitet: Jeffrey Clark am 10 Okt. 2022
@SAHIL SAHOO, since Gt(1) is not changed after the initial setting from the y input, and Gt(i+1) is not refereced before where you say you want to change Gt(i+1), you can just set Gt(2:end) before the i loop:
Gt = y(1:3:3*N-2);
% Gt(i) = Gt(1) then the Gt(i+1) = 2 and when the Gt(i) = Gt(5) then the Gt(i+1) = Gt(1)
Gt([false Gt(1:end-1)==Gt(1)]) = 2;
Gt([false Gt(1:end-1)==Gt(5)]) = Gt(1);
  3 Kommentare
Jeffrey Clark
Jeffrey Clark am 11 Okt. 2022
@SAHIL SAHOO, you askeda very specific question which is what I answered and showed the two lines added just after where Gt is defined. I suspect you are asking the more general question as to why you aren't getting the results you want? Please check that the code you pasted in your initial post is what you are running, when I reformatted it slightly and without adding my two lines the code debugger points out that the parameters for the call to rate_eq don't match the functions', and the function doesn't use its first or last parameter t and o (see attached your reformatted code). It is also unlikely that Gt(i) would ever be exactly the same as Gt(1) or Gt(5) since they are random numbers:
[T,Y]= ode45(@(t,y) rate_eq(t,y,yita_mn,N),tspan,y0);
function dy = rate_eq(t,y,yita_mn,N,o)
SAHIL SAHOO
SAHIL SAHOO am 11 Okt. 2022
i get coreect solution by using the n

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