Distance difference from center
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Hi,
I created a cross section by using kmeans function from two different data (indicated by X and * in image),
My aim is to determine the distance difference of two data from center (o) of cross section,
Briefly i try to find the;
Distance between O and X (d1)
Than i need to find the nearest * to X,
Than calculate the distance between O and * (which is nearest X) (d2)
And lastly i need to calculate the difference between (d1) and (d2)
And i want to do this calculations for all X to * in cross-section.
Thank you...
My current code is given below: my points are represented by m,n and o in code...
clc;clear;
x=xlsread('king1.xlsx', 'A:A');
y=xlsread('king1.xlsx', 'B:B');
z=xlsread('king1.xlsx', 'C:C');
a=xlsread('king2.xlsx', 'A:A');
b=xlsread('king2.xlsx', 'B:B');
c=xlsread('king2.xlsx', 'C:C');
xyz=[x y z];
abc=[a b c];
rng(1);
[idx1,C1] = kmeans(xyz,100,'distance','sqEuclidean','MaxIter',500, 'Replicates', 10);
[idx2,C2] = kmeans(abc,100,'distance','sqEuclidean','MaxIter',500, 'Replicates', 10);
[dist,idx3] = pdist2(xyz, C1, 'euclidean', 'Smallest',1);
newVar = xyz(idx3 ,:);
plot3(newVar(:,1), newVar(:,2), newVar(:,3), 'bx');
hold on;
xlabel ('x - axis', 'fontsize', 12);
ylabel ('y - axis', 'fontsize', 12);
zlabel ('z - axis', 'fontsize', 12);
grid
[dist2,idx4] = pdist2(abc, C2, 'euclidean', 'Smallest',1);
newVar2 = abc(idx4 ,:);
plot3(newVar2(:,1), newVar2(:,2), newVar2(:,3), 'r*')
newVar3 = mean (newVar)
newVar4 = mean (newVar2)
newVar5 = (newVar3 + newVar4)/ 2
plot3(newVar5(:,1), newVar5(:,2), newVar5(:,3), 'go');
m=[newVar(:,1) newVar(:,2) newVar(:,3)];
n=[newVar2(:,1) newVar2(:,2) newVar2(:,3)];
o=[newVar5(:,1) newVar5(:,2) newVar5(:,3)];
Accepted Answer
darova
on 28 May 2019
I did this
xyz0 = (mean(xyz)+mean(abc))/2; % O point
XYZ0 = repmat(xyz0,size(xyz,1),1); % duplicate rows
d1 = XYZ0 - xyz; % Distance(s) between O and X (d1)
% find the nearest * to X
D = pdist2(xyz,abc); % every possible combinations
D(D==0) = max(D(:)); % fill zeros with max ( (:) - convert matrix to column vector )
[~,ind] = min(D(:)); % find index of min element
% Found index of min element in vector. Find correspoding indices of points
[i,j] = ind2sub(size(D),ind); % extract row and column (i - index of xyz, j - index of abc)
% calculate the distance between O and * (which is nearest X) (d2)
d2 = xyz0 - abc(j,:); % difference between O point and * (nearest X)
D2 = repmat(d2,size(d2,1),1); % duplicate rows
d = D2 - d1; % distance(s) between d2 and d1
5 Comments
Mehmet Volkan Ozdogan
on 28 May 2019
Edited: Mehmet Volkan Ozdogan
on 28 May 2019
darova
on 29 May 2019
Sorry. forgot about that. Those are not coordinates, when you subract coordinates you get coordinates difference
p1(x1,y1) - p2(x2,y2) = v(dx,dy)
xyz0 = (mean(xyz)+mean(abc))/2; % O point (ONE point)
XYZ0 = repmat(xyz0,size(xyz,1),1); % duplicate rows
d1 = XYZ0 - xyz; % difference(s) between O and X (dy,dy,dz)
d1 = sqrt(sum(d1.^2,2)); % absolute distance(s) (euclidean)
% the same because xyz0 - one point
d1 = pdist(xyz0,xyz);
% or
d1 = pdist2(xyz0,xyz,'euclidean','smallest',1)
I duplicated rows, because forgot how pdist2() works
- Distance between O and X (d1)
- Than i need to find the nearest * to X, - i misunderstood you here
- Than calculate the distance between O and * (which is nearest X) (d2)
- And lastly i need to calculate the difference between (d1) and (d2)
Try this:
d1 = pdist2(varO,varX); % distance(s) (many) between O and X
% varS == var*
[~,idx] = pdist2(varS,varX,'euclidean','smallest',1); % indices of nearest * for EACH X
d2 = pdist2(varO,varS(idx)); % distance(s) between O and * (nearest to X)
d2 - d1
darova
on 29 May 2019
Sorry, didn't test it (missed ':' for column). Try:
d2 = pdist2(newVar5,newVar2(idx,:));
Mehmet Volkan Ozdogan
on 29 May 2019
Mehmet Volkan Ozdogan
on 29 May 2019
Edited: Mehmet Volkan Ozdogan
on 29 May 2019
More Answers (1)
e_oksum
on 29 May 2019
hi mehmet, here is an example code performing what you explained,
example uses random positions, you can adopt by yours..and also simplify it for more compact without plotting etc..
X=rand(1,10)*10 ;% your x position of X
Y=rand(1,10)*10 ;% your y position of X
xs=rand(1,10)*10 ;% your x position of *
ys=rand(1,10)*10 ;% your y position of *
xo=5 ;% center x
yo=5 ;% center y
plot(X,Y,'ro','markerfacecolor','r');
hold on
plot(xs,ys,'k+');
plot(xo,yo,'go','markerfacecolor','g');
for i=1:numel(X)
d1(i)=sqrt((X(i)-xo).^2+(Y(i)-yo).^2);% distance d1 of X(i) Y(i) to center
%find position of nearest xs,ys to X,Y
L=sqrt((xs-X(i)).^2 + (ys-Y(i)).^2);
idx=find(L==min(L));
xp(i)=xs(idx); %(xp yp are the nearest nearest X)
yp(i)=ys(idx);
d2(i)=sqrt((xp(i)-xo).^2 + (yp(i)-yo).^2); % distance d2 of nearest xp yp to X(i),Y(i)
diffd1d2(i)=(d1(i)-d2(i)); % diffrence between d1 d2
% check by plot
l1=plot([X(i) xo],[Y(i) yo],'-r'); % line d1
l2=plot([xp(i) xo],[yp(i) yo],'-k'); % line d2
pause(1)
delete(l1)
delete(l2)
end
list=[X' Y' xp' yp' d1' d2' diffd1d2']
1 Comment
Mehmet Volkan Ozdogan
on 29 May 2019
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