Homography Matrix

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Tejas Kulkarni
Tejas Kulkarni le 15 Jan 2012
Modifié(e) : Matt J le 26 Avr 2022
Can somebody please help me in understanding how to calculate an homography matrix in matlab.
  1 commentaire
Lalit Patil
Lalit Patil le 22 Jan 2013
I am finding homography matrix in another way and it is 3*3
So, i want to know that in image where to apply or what to do of this homography matrix.?
Why we are finding this matrix..?

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Réponses (2)

David Young
David Young le 15 Jan 2012
You don't say what you are starting from. If you have a set of matched input and output points, one possible method is given here. A simple implementation is below.
function v = homography_solve(pin, pout)
% HOMOGRAPHY_SOLVE finds a homography from point pairs
% V = HOMOGRAPHY_SOLVE(PIN, POUT) takes a 2xN matrix of input vectors and
% a 2xN matrix of output vectors, and returns the homogeneous
% transformation matrix that maps the inputs to the outputs, to some
% approximation if there is noise.
%
% This uses the SVD method of
% http://www.robots.ox.ac.uk/%7Evgg/presentations/bmvc97/criminispaper/node3.html
% David Young, University of Sussex, February 2008
if ~isequal(size(pin), size(pout))
error('Points matrices different sizes');
end
if size(pin, 1) ~= 2
error('Points matrices must have two rows');
end
n = size(pin, 2);
if n < 4
error('Need at least 4 matching points');
end
% Solve equations using SVD
x = pout(1, :); y = pout(2,:); X = pin(1,:); Y = pin(2,:);
rows0 = zeros(3, n);
rowsXY = -[X; Y; ones(1,n)];
hx = [rowsXY; rows0; x.*X; x.*Y; x];
hy = [rows0; rowsXY; y.*X; y.*Y; y];
h = [hx hy];
if n == 4
[U, ~, ~] = svd(h);
else
[U, ~, ~] = svd(h, 'econ');
end
v = (reshape(U(:,9), 3, 3)).';
end
If your initial data is in some other form, such as camera position parameters relative to the plane, please say.
EDIT - added:
To apply the resulting matrix to a set of points, you can use the following function.
function y = homography_transform(x, v)
% HOMOGRAPHY_TRANSFORM applies homographic transform to vectors
% Y = HOMOGRAPHY_TRANSFORM(X, V) takes a 2xN matrix, each column of which
% gives the position of a point in a plane. It returns a 2xN matrix whose
% columns are the input vectors transformed according to the homography
% V, represented as a 3x3 homogeneous matrix.
q = v * [x; ones(1, size(x,2))];
p = q(3,:);
y = [q(1,:)./p; q(2,:)./p];
end
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Wei Han
Wei Han le 25 Mar 2022
Modifié(e) : Wei Han le 25 Mar 2022
Hi, I just want to thank for your code, it's really helped me!
Sahana Srivathsa
Sahana Srivathsa le 25 Avr 2022
This is very helpful. I think equation for q needs to be slightly altered.
q = v * [x; y; ones(1, size(x,2))];

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Matt J
Matt J le 25 Avr 2022
Modifié(e) : Matt J le 25 Avr 2022
  1 commentaire
Matt J
Matt J le 26 Avr 2022
Modifié(e) : Matt J le 26 Avr 2022
You shouldn't be extracting the matrix. You should be using tform.transformPointsForward().

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