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storing all results in final matrix to save space in matlab when using for loop
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coordinates for Points Pi(total 33 in #,11*3 matrix form) are known by combination of x-coord, y-coord, z-coord. Ray1 goes from known points A(x1,y1,z1) to P1(x2,y2,z2).It enters a region of interest at entry point(x3,y3,z3) and comes out through exit point(x4,y4,z4) such that entry and exit points are somewhere between A and P1.Transmission at entry point is known and I am trying to find out transmission at exit point because of attenuation.So, I reach to point,B in ray direction through incremental distance from A and find out transmission at B as I know transmission at entry point. Then I find out transmission at next point C as I know transmission at B. This way I finally find out transmission at exit point.Since I have 33 Pi points (in 3 rows and 11 columns), my final transmission matrix will be 3*11 size. I could the result if I create big matrix for intermediate steps like 'entry_point_coord,exit_point_coord, CT_number' etc. But I only want to store all my results in 'Final_Transmission' matrix. My matlab code is as follows. But I don't get a transmission matrix of required size and also did not get transmission values that I expect to get. Any help to resolve this issue will be appreciated.
A=[x1 y1 z1]
Transmission=1
% To create Pi points
x_coord=x1:increment:x2; %size 1*11
y_coord=y1:increment:y2; %size 1*3
z_coord=z; %it is constant
x_index=0;
y_index=0;
for i=1:3
y_index=y_index+1;
for j=1:11;
y_index=y_index+1;
Transmission=1
d=sqrt(sum(([x_coord(1,j),y_coord(1,i),z]-[x1,y1,z1]).^2));finding distance between A and Pi
entry_point_coordinate=[x1,y1,z1]+[x_coord(1,j)/d,y_coord(1,i)/d,z/d];
exit_point_coordinate=[x1,y1,z1]+[x_coord(1,j)/1.5*d,y_coord(1,i)/1.2*d,z/d];
x_coordinate_of_interest_point=entry_point_coordinate(1,1):increment:Exit_point_coordinate(1,1);
y_coordinate_of_interest_point=entry_point_coordinate(1,2):increment:Exit_point_coordinate(1,2);
z_coordinate_of_interest_pointt=entry_point_on_CT_data_for_ray(1,3):increment:Exit_point_coordinate(1,3);
for k=1:size(x_coordinate_of_interest_point,2);
spatial_coordinate_of_interest_point=[x_coordinate_of_interest_point(1,k) y_coordinate_of_interest_point(1,k) z_coordinate_of_interest_point(1,k)];
CT_number=interp3(....,spatial_coordinate_of_point);%I am fine with interp3 code inputs
attenuation=.2164*(1+CT_number/1000);% gives att coeff corresponding to CT_number
density=interp1(.....CT_number);%I am also fine with interp1 code inputs
Product=attenuation.*(0.1.*density);
New_Transmission_Factor=(Transmission_Factor).*(exp(-Product));
end
Final_Transmission(y_index,x_index)=New_Transmission_Factor;
end
end
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