Package to calculate the bidimensional and tridimensional regression between two 2D/3D configurations.
library("devtools"); install_github("alexander-pastukhov/tridim-regression", dependencies=TRUE)
If you want vignettes, us
devtools::install_github("alexander-pastukhov/tridim-regression", dependencies=TRUE, build_vignettes = TRUE)
You can call the main function either via a formula that specifies dependent and independent variables with the
data table or by supplying two tables one containing all independent variables and one containing all dependent variables. The former call is
euc2 <- fit_transformation(depV1 + depV2 ~ indepV1 + indepV2, NakayaData, 'euclidean')
whereas the latter is
euc3 <- fit_transformation_df(Face3D_W070, Face3D_W097, transformation ='translation')
vignette("calibration", package="TriDimRegression") for an example of using
TriDimRegression for 2D eye gaze data and
vignette("comparing_faces", package="TriDimRegression") for an example of working with 3D facial landmarks data.
For the 2D data, you can fit
"translation" (2 parameters for translation only),
(4 parameters: 2 for translation, 1 for scaling, and 1 for rotation),
"affine" (6 parameters: 2 for translation and 4 that jointly describe scaling, rotation and sheer), or
"projective" (8 parameters: affine plus 2 additional parameters to account for projection). For 3D data, you can fit
"translation" (3 for translation only),
"euclidean_z" (5 parameters: 3 for translation scale, 1 for rotation, and 1 for scaling),
"affine" (12 parameters: 3 for translation and 9 to account for scaling, rotation, and sheer), and
"projective" (15 parameters: affine plus 3 additional parameters to account for projection). transformations. For details on how matrices are constructed, see
Once the data is fitted, you can extract the transformation coefficients via
coef() function and the matrix itself via
transformation_matrix(). Predicted data, either based on the original data or on the new data, can be generated via
predict(). Bayesian R-squared can be computed with or without adjustment via
R2() function. In all three cases, you have choice between summary (mean + specified quantiles) or full posterior samples.
waic() provide corresponding measures that can be used for comparison via
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