geometric transformation and image registrationstaff.cs.psu.ac.th/sathit/dip/geometric...
TRANSCRIPT
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Geometric Transformation and Image Registration
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WHAT WILL WE LEARN?
• What do geometric operations do? • What are they used for? • What are the techniques used to enlarge/reduce
a digital image? • What are the main interpolation methods used in
association with geometric operations? • What are affine transformations and how can
they be performed using MATLAB? • How can I rotate, flip, crop, or resize images in
MATLAB? • What is image registration and where is it used?
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What do geometric operations do?
Geometric operations modify the geometry of an image,
by repositioning pixels in a constrained way.
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What are they used for?
(1) Correcting geometric distortions introduced during the image acquisition process (e.g., due to the use of a fish-eye lens).
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What are they used for?
(2) Creating special effects on existing images, such as twirling, bulging, or squeezing a picture of someone’s face.
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What are they used for?
• Image registration—the process of matching the common features of two or more images of the same scene, acquired from different viewpoints or using different equipment.
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Two basic components of geometric transformation
1. Mapping Function: This is typically specified using a set of spatial transformation equations (and a procedure to solve them) .
2. Interpolation Methods: These are used to compute the new value of each pixel in the spatially transformed image.
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Geometric Spatial Transformations
An image, f, defined over a (w, z) coordinate system, To produce an image, g, defined over an (x, y) coordinate system.
This transformation (of the coordinates) may be expressed as
𝑥, 𝑦 = 𝑇 𝑤, 𝑧
• For example, – if (x, y) = T {(w, z)} = (w/2, z/2),
– Output image is simply as shrinking of f by half in both spatial dimensions, as illustrated in the Figure.
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( , )wx T w z
( , )zy T w z
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Affine transformation
Transfer functions: Tw and Tz can be expressed in polynomial form of w and z, which is linear combination of x and y is called affine
transformation:
11 12 13x t w t z t
21 22 23y t w t z t
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Affine transformation
One of the most commonly used forms of spatial transformations is the affine transform. The affine transform can be written in matrix form as
11 12 13
21 22 23
1 0 0 1 1
x t t t w
y t t t z
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Affine transforms
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tform structure
• IPT represents spatial transformations using a so-called tform structure.
• A method to create such a structure is by using function maketform, whose call syntax
tform = maketform(transform_type,
transform_parameters)
• The first input argument, transform_type, is one of these strings: 'affine’, 'projective', 'box', ‘composite' ,or ‘custom'.
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Ex: Generate transformation matrix a) Rotation by 30◦;
Since 30◦ = pi/6 cos(pi/6) = cosd(30) = 0.866 and sin(pi/6) = sind(30) = 0.500:
cos(𝜃) sin(𝜃) 0−sin(𝜃) cos(𝜃) 0
0 0 1
=0.866 0.500 00.500 0.866 00 0 1
>>Ta = maketform('affine',[cosd(30) sind(30) 0; -sind(30) cosd(30) 0; 0 0 1]); >>Ia = imtransform(I,Ta);
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Ex: Generate transformation matrix
b) Scaling by a factor 3.5 in both dimensions;
Scaling matrix: 𝑆𝑥 0 00 𝑆𝑦 0
0 0 1
=3.5 0 00 3.5 00 0 1
>>%Scaling in MATLAB
>>S = [3.5 0 0; 0 3.5 0; 0 0 1];
>>Tb = maketform('affine', S);
>>Ib = imtransform(I,Tb);
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Ex: Generate transformation matrix
(c) translation by [25, 15] pixels;
Translation matrix: 1 0 00 1 0𝑇𝑥 𝑇𝑦 1
=1 0 00 1 025 15 1
>>% Translation in MATLAB
>>xform = [1 0 25; 0 1 15; 0 0 1]';
>>Tc = maketform('affine',xform);
>>Ic = imtransform(I, Tc, 'XData', ...
>>[1 (size(I,2)+xform(3,1))], 'YData', ...
>>[1 (size(I,1)+xform(3,2))],'FillValues', 128 );
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Ex: Generate transformation matrix (d) shear by a factor [2, 3].
Shear matrix: 1 𝑆𝑦 0
𝑆𝑥 1 00 0 1
=1 3 02 1 00 0 1
>>% Shearing
>>Td = maketform('affine', [1 3 0; 2 1 0; 0 0 1]);
>>Id = imtransform(I,Td);
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tform_type by ‘custom’ Ex. Scaling horizontal by 3 and vertical by 2
1
, , 3 ,2
, , 3, 2
x y T w z w z
w z T x y x y
Syntax: xy = forward_fcn(wz, tdata)
>> forward_fcn = @(wz, tdata) [3*wz(:,1), 2*wz(:,2)]
Syntax: wz = inverse_fn(xy, tdata)
>> inverse_fcn = @(xy, tdata) [xy(:,1)/3, xy(:,2)/2]
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Create tform >> tform1 = maketform(‘custom’, 2, 2, forward_fcn, inverse_fcn, [])
Makeform will return: tform1 = ndims_in : 2 ndims_out : 2 forward_fcn : @(wz, tdata) [3*wz(: , 1) , 2*wz(: , 2) ] inverse_fcn : @(xy, tdata) [xy(:, 1)/3, xy(:, 2)/2 ] tdata : [ ]
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Ex: forward and invert functions
>> wz = [1 1; 3 2]
>> xy = tformfwd(wz, tform1)
xy =
3 2
9 4
>> wz2 = tforminv(xy, tform1)
wz2 =
1 1
3 2
, , 3 ,2
3 0
0 2
x y T w z w z
x w
y z
3 3 0 1 9 3 0 3,
0 2 0 22 1 4 2
3 0 3 0
3 2 1 1 , 9 4 3 20 2 0 2
1, , 3, 2
1 3 0
0 1 2
w z T x y x y
w x
z y
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maketform • For example, one way create an affine tform is to provide the T
matrix directly, as in >> T = [2 0 0; 0 3 0; 0 0 1]; >> tform = maketform('affine', T) tform = ndims_in: 2 ndims_out: 2 forward_fcn: @fwd_affine inverse_fcn: @inv_affine tdata: [1x1 struct] >> tform.tdata ans = T: [3x3 double] Tinv: [3x3 double]
>> tform.tdata ans = T: [3x3 double] Tinv: [3x3 double] >> tform.tdata.T ans = 2 0 0 0 3 0 0 0 1 >> tform.tdata.Tinv ans = 0.5000 0 0 0 0.3333 0 0 0 1.0000
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Forward/Inverse Transformation • tformfwd computes the forward transformation, 𝑇 𝑤, 𝑧 , syntax
for tformfwd is XY = tformfwd(WZ, tform).
Ex >> WZ =[1 1; 3 2];
>> XY = tformfwd(WZ, tform)
XY =
2 3
6 6
• tforminv computes the inverse transformation, 𝑇−1 𝑤, 𝑧 . Ex
>> WZ1=tforminv(XY, tform) WZ1 = 1 1 3 2
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0 100 200 3000
50
100
150
200
w
z
0 100 200 3000
50
100
150
200
x
y T=300020001
𝑇 =100210001
0 100 200 3000
50
100
w
z
0 100 200 3000
50
100
x
y
1.50002.00001.0
cos(𝜋4) sin(𝜋
4) 0
−sin(𝜋4) cos(𝜋
4) 0
0 0 1
1 0 00.2 1 00 0 1
=1.27281.06070−1.13141.41420001
-100 -50 0 50 1000
50
100
150
200
w
z
-100 -50 0 50 1000
50
100
150
200
x
y
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Geometric distortion
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Geometric distortion
(305,396) (272,396)
(328,285) (276,285)
(312,140) (284,140)
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Restored image
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Applying Spatial Transformations to Images
Most computational methods for spatially transforming an image fall into one of two categories:
1. forward mapping,
2. inverse mapping.
• Methods based on forward mapping scan each input pixel in turn, copying its value into the output image at the location determined by T { (w, z)}.
• One problem with the forward mapping procedure is that two or more different pixels in the input image could be transformed into the same pixel in the output image, raising the question of how to combine multiple input pixel values into a single output pixel value.
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imtransform uses inverse mapping instead. An inverse mapping procedure scans each output pixel in turn, computes the corresponding location in the input image using 𝑇−1 (𝑥, 𝑦) , and interpolates among the nearest input image pixels to determine the output pixel value.
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imtransform
The basic calling syntax for imtransform is
g = imtransform(f, tform, interp)
• where interp is a string that specifies how input image pixels are interpolated to obtain output pixels;
• interp can be either 'nearest', 'bilinear', or bicubic' .
• The interp input argument can be omitted, in which case it default to 'bilinear'.
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INTERPOLATION METHODS
• Forward mapping—also known as source-to-target mapping
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Backward mapping
• Backward mapping—also known as target-to-source mapping
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INTERPOLATION METHODS
• Zero-Order (Nearest-Neighbor) Interpolation This baseline interpolation scheme rounds off the calculated coordinates (x’, y’) to their nearest integers.
• First-Order (Bilinear) Interpolation at coordinates (x’, y’) is a weighted function of the four pixels surrounding.
• Third order Interpolation: Bicubic. It takes into account the 4×4 neighborhood around the reference pixel and computes the resulting gray level of the interpolated pixel by performing the convolution of the 4×4 neighborhood with a cubic function.
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GEOMETRIC OPERATIONS USING MATLAB
A summary of typical geometric operations involving digital images that can easily be implemented using MATLAB and the IPT.
• Zooming, Shrinking, and Resizing
– imresize function allows the user to specify the interpolation method used (nearest-neighbor, bilinear, or bicubic interpolation—the default method).
• Translation, use maketform and imtransform to perform image translation.
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GEOMETRIC OPERATIONS USING MATLAB
• Rotation can also be accomplished using maketform and imtransform.
– imrotate allows the user to specify the interpolation method used: nearest-neighbor (the default method), bilinear, or bicubic.
• Cropping
– imcrop to crops an image to a specified rectangle
• Flipping has two functions for flipping images.
– flipud—which flips a matrix up to down—and
– fliplr—which flips a matrix left to right.
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Coordinate system in MATLAB
>> f = imread('PD02Exp.tif');
>> imshow(f) % To show image
>> axis on % to show coordinate valuses
>> xlabel x % Label on x axis
>> ylabel y % Label on y axis
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Coordinate system in MATLAB >> theta = 3*pi/4; >> T = [cos(theta) sin(theta) 0; -sin(theta) cos(theta) 0; 0 0 1]; >> tform = maketform('affine', T); >> [g, xdata, ydata] = imtransform(f, tform, 'FillValue', 255); >> imshow(f) >> hold on >> imshow(g, ‘XData’, xdata, ‘YData’, ydata);
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Image Registration
Geometric transformations are used frequently to perform image registration, a process that takes two images of the same scene and aligns them so they can be merged for visualization, or for quantitative comparison. In the following sections, we discuss
1. spatial transformations and how to define and visualize them in MATLAB;
2. how to apply spatial transformation images; and 3. how to determine spatial transformations for use in
image registration.
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Image Registration Image registration methods seek to align two images of the same scene. • For example, it may be of interest to align two or more
images taken at roughly the same time, but using different instruments, such as an MRI (magnetic resonance imaging) scan and a PET (positron emission tomography) scan.
• Or, perhaps the images were taken at different times using the same instrument, such satellite images of a given location taken several days, months, or even years apart.
• In either case, combining the images or performing quantitative analysis and comparisons requires compensating for geometric aberrations caused by differences in camera angle, distance, and orientation; sensor resolution; shift in subject position; and other factors.
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User define mapping
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Create transform structure >> tform = cp2tform(input_points, base_points, ‘affine’); >> [x xdata, ydata] = imtransform(f, tform);
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cp2tform
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