Apply inverse spatial transformation
[U,V] = tforminv(T,X,Y)
[U1,U2,U3,...] = tforminv(T,X1,X2,X3,...)
U = tforminv(T,X)
[U1,U2,U3,...] = tforminv(T,X)
U = tforminv(T,X1,X2,X3,...)
[U,V] = tforminv(T,X,Y) applies the 2D-to-2D inverse transformation defined in TFORM structure T to coordinate arrays X and Y, mapping the point [X(k) Y(k)] to the point [U(k) V(k)]. Both T.ndims_in and T.ndims_out must equal 2. X and Y are typically column vectors matching in length. In general, X and Y can have any dimensionality, but must have the same size. In any case, U and V will have the same size as X and Y.
[U1,U2,U3,...] = tforminv(T,X1,X2,X3,...) applies the NDIMS_OUT-to-NDIMS_IN inverse transformation defined in TFORM structure T to the coordinate arrays X1,X2,...,XNDIMS_OUT (where NDIMS_IN = T.ndims_in and NDIMS_OUT = T.ndims_out). The number of output arguments must equal NDIMS_IN. The transformation maps the point
[X1(k) X2(k) ... XNDIMS_OUT(k)]
to the point
[U1(k) U2(k) ... UNDIMS_IN(k)].
X1,X2,X3,... can have any dimensionality, but must be the same size.
U1,U2,U3,... have this size also.
U = tforminv(T,X) applies the NDIMS_OUT-to-NDIMS_IN inverse transformation defined in TFORM structure T to each row of X, where X is an M-by-NDIMS_OUT matrix. It maps the point X(k,:) to the point U(k,:). U is an M-by-NDIMS_IN matrix.
U = tforminv(T,X), where X is an (N+1)-dimensional array, maps the point X(k1,k2,...,kN,:) to the point U(k1,k2,...,kN,:). size(X,N+1) must equal NDIMS_OUT. U is an (N+1)-dimensional array, with size(U,I) equal to size(X,I) for I = 1,...,N and size(U,N+1) equal to NDIMS_IN.
[U1,U2,U3,...] = tforminv(T,X) maps an (N+1)-dimensional array to NDIMS_IN equally-sized N-dimensional arrays.
U = tforminv(T,X1,X2,X3,...) maps NDIMS_OUT N-dimensional arrays to one (N+1)-dimensional array.
U = tforminv(X,T) is an older form of the two-argument syntax that remains supported for backward compatibility.
Create an affine transformation that maps the triangle with vertices (0,0), (6,3), (-2,5) to the triangle with vertices (-1,-1), (0,-10), (4,4).
u = [ 0 6 -2]';
v = [ 0 3 5]';
x = [-1 0 4]';
y = [-1 -10 4]';
tform = maketform('affine',[u v],[x y]);Validate the mapping by applying tforminv. Results should equal [u, v].
[um, vm] = tforminv(tform, x, y)
cp2tform, tformfwd, maketform, fliptform
© 1984-2010 The MathWorks, Inc. • Terms of Use • Patents • Trademarks • Acknowledgments