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How to convert an image to the cartesian X,Y coordinates?

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George
George il 19 Giu 2013
Modificato: John Kelly il 27 Mag 2014
I have a grayscale image and i want to convert to the cartesian X,Y coordinates
  2 Commenti
Matt J
Matt J il 19 Giu 2013
Modificato: Matt J il 19 Giu 2013
Here is a small 3x3 example of a grayscale image
>> A=diag(randi(255,1,3))
A =
233 0 0
0 162 0
0 0 25
What would be the result of the "conversion" you are looking for in the case of this image.
George
George il 19 Giu 2013
1 1 233
1 2 0
1 3 0
2 1 0
2 2 162
2 3 0
3 1 0
3 2 0
3 3 25

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Matt J
Matt J il 19 Giu 2013
Modificato: Matt J il 19 Giu 2013
[x,y]=meshgrid(1:size(A,1), 1:size(A,2));
result=[x(:),y(:),A(:)];
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Matt J
Matt J il 19 Giu 2013
Modificato: Matt J il 19 Giu 2013
Read in as type double
A=double(imread('moon.tif'));
and then,
result=[x(:),y(:),A(:)];
>> max(result)
ans =
537 358 253

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Più risposte (2)

Alex Taylor
Alex Taylor il 19 Giu 2013
Modificato: John Kelly il 27 Mag 2014
If what you are trying to do is reference a 2-D image to a cartesian coordinate system, you should look at the class imref2d that ships with the Image Processing Toolbox as of R2013a
For example, if you want to reference the image A that Matt mentioned to the default (Intrinsic) coordinate system used by MATLAB in which the center of the first pixel is located at position (1,1) and each pixel has an extent of one unit, you could use the following syntax of imref2d:
A=diag(randi(255,1,3));
imref2d(size(A))
ans =
imref2d with properties:
XWorldLimits: [0.5000 3.5000]
YWorldLimits: [0.5000 3.5000]
ImageSize: [3 3]
PixelExtentInWorldX: 1
PixelExtentInWorldY: 1
ImageExtentInWorldX: 3
ImageExtentInWorldY: 3
XIntrinsicLimits: [0.5000 3.5000]
YIntrinsicLimits: [0.5000 3.5000]
imref2d also provides other construction syntaxes and writable properties if you want to reference your image to some other cartesian system.
imref2d provides various methods for converting two and from image subscripts and locations in a continuous cartesian system:
>> methods(imref2d)
Methods for class imref2d:
contains intrinsicToWorld worldToIntrinsic
imref2d sizesMatch worldToSubscript
Jeff E
Jeff E il 19 Giu 2013
Modificato: Jeff E il 19 Giu 2013
Unimaginative solution below, possibly with extra computational overhead than a direct solution using reshape and some simple calculations for the X,Y cooridnates.
A=diag(randi(255,1,3))
A =
10 0 0
0 226 0
0 0 233
>> B = true(size(A))
B =
1 1 1
1 1 1
1 1 1
stats = regionprops(B, A, 'PixelValues' , 'PixelList');
PixelListValues = cat(2, [stats.PixelList] , [stats.PixelValues])
PixelListValues =
1 1 10
1 2 0
1 3 0
2 1 0
2 2 226
2 3 0
3 1 0
3 2 0
3 3 233
  1 Commento
George
George il 19 Giu 2013
A=imread('moon.tif');
B = true(size(A));
stats = regionprops(B, A, 'PixelValues' , 'PixelList');
PixelListValues = cat(2, [stats.PixelList] , [stats.PixelValues])
x,y counting stop to 255

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