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how to store each for loop iteration output in a row of a matrix and then eventually get the full matrix for all iterations?

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malak Osama
malak Osama on 17 Jul 2021
Answered: Walter Roberson on 19 Jul 2021
hello, I have the variables ax,ay,az and r that for each iteration they give different output and should be stored in a atrix and eventually we need each row of that matrix to describe one iteration from the loop, I keep getting the error that says 'Error in receiver_location3 (line 45) H(i)=[ax ay az 1];
so baisiclly we need to find the ax,ay,az and r store them in a row vector and then somhow store that row vector from each iteration in a bigger matrix contaning all the iterations output. so anyone has any idea how to do that?
I attach below the code I am working on, there might be some lines in the code that are not related but just to make the bigger picture clear
for S=1:length(data3)
if(data3(S,6)>15)
newdata(i,:)=data3(S,:);
i=i+1;
end
end
while N<length(newdata)
for r=1:length(newdata)
if(SecOfDay==newdata(r,1))
counter_1=counter_1+1;
end
xs=newdata(N:counter_1,3);
ys=newdata(N:counter_1,4);
zs=newdata(N:counter_1,5);
dist=newdata(N:counter_1,6);
end
Fun = @(u) [sqrt((xs-u(1)).^2 + (ys-u(2)).^2 + (zs-u(3)).^2) - (c*u(4)) - (dist)];
x0 = [0;0;0;0];
u = lsqnonlin(Fun,x0);
SecOfDay=SecOfDay+30;
X=u(1);
Y=u(2);
Z=u(3);
e=u(4);
r= sqrt((xs-X).^2-(ys-Y).^2-(zs-Z).^2);
ax= (xs-X)/r;
ay=(ys-Y)/r;
az=(zs-Z)/r;
H(i)=[ax ay az 1];
N=counter_1+1;
for j=1:length(newdata)
H_j=[ax(j) ay(j) az(j) 1];
end
  1 Comment
Aakash Deep Chhonkar
Aakash Deep Chhonkar on 19 Jul 2021
It is hard to guess the issue because the code snippet is incomplete. I guess the issue is with var 'i', try using separate var to store the row vector in H.

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Answers (3)

Markus
Markus on 19 Jul 2021
I put your code in the code environment to get a clearer view:
for S=1:length(data3)
if(data3(S,6)>15)
newdata(i,:)=data3(S,:);
i=i+1; % i= previously defined? - now prev. i+amount of true if-cases
end
end
while N<length(newdata)
for r=1:length(newdata)
if(SecOfDay==newdata(r,1))
counter_1=counter_1+1;
end
xs=newdata(N:counter_1,3);
ys=newdata(N:counter_1,4);
zs=newdata(N:counter_1,5);
dist=newdata(N:counter_1,6);
end
Fun = @(u) [sqrt((xs-u(1)).^2 + (ys-u(2)).^2 + (zs-u(3)).^2) - (c*u(4)) - (dist)];
x0 = [0;0;0;0];
u = lsqnonlin(Fun,x0);
SecOfDay=SecOfDay+30;
X=u(1);
Y=u(2);
Z=u(3);
e=u(4);
r= sqrt((xs-X).^2-(ys-Y).^2-(zs-Z).^2);
ax= (xs-X)/r;
ay=(ys-Y)/r;
az=(zs-Z)/r;
H(i)=[ax ay az 1]; % i is now at the value from the first for-loop
You are working with i from the for-loop from above. I am not certain if that is what you really want. Maybe H(N) gives you what you want?
N=counter_1+1;
for j=1:length(newdata)
H_j=[ax(j) ay(j) az(j) 1];
end

Steven Lord
Steven Lord on 19 Jul 2021
Try adapting this example that creates the 5-by-5 multiplication table to your needs. I've left off the semicolon inside the loop so it displays the intermediate results. [I know there's a shorter way to create the multiplication table, but this is to demonstrate the technique.]
x = 1:5;
multTable = zeros(5);
for y = 1:5
z = y*x;
multTable(y, :) = z
end
multTable = 5×5
1 2 3 4 5 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
multTable = 5×5
1 2 3 4 5 2 4 6 8 10 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
multTable = 5×5
1 2 3 4 5 2 4 6 8 10 3 6 9 12 15 0 0 0 0 0 0 0 0 0 0
multTable = 5×5
1 2 3 4 5 2 4 6 8 10 3 6 9 12 15 4 8 12 16 20 0 0 0 0 0
multTable = 5×5
1 2 3 4 5 2 4 6 8 10 3 6 9 12 15 4 8 12 16 20 5 10 15 20 25

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