R/leaf_id_flavia.R
In tidymodels/modeldata: Data Sets Useful for Modeling Examples
#' Leaf identification data (Flavia)
#'
#' @description
#' Image analysis of leaves to predict species.
#'
#' @name leaf_id_flavia
#' @aliases leaf_id_flavia
#' @docType data
#' @return \item{leaf_id_flavia}{a data frame}
#'
#' @details
#' From the original manuscript: "The Flavia dataset contains 1907 leaf images.
#' There are 32 different species and each has 50-77 images. Scanners and
#' digital cameras are used to acquire the leaf images on a plain background.
#' The isolated leaf images contain blades only, without a petiole. These leaf
#' images are collected from the most common plants in Yangtze, Delta,
#' China. Those leaves were sampled on the campus of the Nanjing University and
#' the Sun Yat-Sen arboretum, Nanking, China."
#'
#' The reference below has details information on the features used for
#' prediction.
#'
#' Columns:
#' \itemize{
#' \item \code{species}: factor (32 levels)
#' \item \code{apex}: factor (9 levels)
#' \item \code{base}: factor (6 levels)
#' \item \code{shape}: factor (5 levels)
#' \item \code{denate_edge}: factor (levels: 'no' and 'yes')
#' \item \code{lobed_edge}: factor (levels: 'no' and 'yes')
#' \item \code{smooth_edge}: factor (levels: 'no' and 'yes')
#' \item \code{toothed_edge}: factor (levels: 'no' and 'yes')
#' \item \code{undulate_edge}: factor (levels: 'no' and 'yes')
#' \item \code{outlying_polar}: numeric
#' \item \code{skewed_polar}: numeric
#' \item \code{clumpy_polar}: numeric
#' \item \code{sparse_polar}: numeric
#' \item \code{striated_polar}: numeric
#' \item \code{convex_polar}: numeric
#' \item \code{skinny_polar}: numeric
#' \item \code{stringy_polar}: numeric
#' \item \code{monotonic_polar}: numeric
#' \item \code{outlying_contour}: numeric
#' \item \code{skewed_contour}: numeric
#' \item \code{clumpy_contour}: numeric
#' \item \code{sparse_contour}: numeric
#' \item \code{striated_contour}: numeric
#' \item \code{convex_contour}: numeric
#' \item \code{skinny_contour}: numeric
#' \item \code{stringy_contour}: numeric
#' \item \code{monotonic_contour}: numeric
#' \item \code{num_max_ponits}: numeric
#' \item \code{num_min_points}: numeric
#' \item \code{diameter}: numeric
#' \item \code{area}: numeric
#' \item \code{perimeter}: numeric
#' \item \code{physiological_length}: numeric
#' \item \code{physiological_width}: numeric
#' \item \code{aspect_ratio}: numeric
#' \item \code{rectangularity}: numeric
#' \item \code{circularity}: numeric
#' \item \code{compactness}: numeric
#' \item \code{narrow_factor}: numeric
#' \item \code{perimeter_ratio_diameter}: numeric
#' \item \code{perimeter_ratio_length}: numeric
#' \item \code{perimeter_ratio_lw}: numeric
#' \item \code{num_convex_points}: numeric
#' \item \code{perimeter_convexity}: numeric
#' \item \code{area_convexity}: numeric
#' \item \code{area_ratio_convexity}: numeric
#' \item \code{equivalent_diameter}: numeric
#' \item \code{eccentriciry}: numeric
#' \item \code{contrast}: numeric
#' \item \code{correlation_texture}: numeric
#' \item \code{inverse_difference_moments}: numeric
#' \item \code{entropy}: numeric
#' \item \code{mean_red_val}: numeric
#' \item \code{mean_green_val}: numeric
#' \item \code{mean_blue_val}: numeric
#' \item \code{std_red_val}: numeric
#' \item \code{std_green_val}: numeric
#' \item \code{std_blue_val}: numeric
#' \item \code{correlation}: numeric
#' }
#' @source
#' Lakshika, Jayani PG, and Thiyanga S. Talagala. "Computer-aided interpretable
#' features for leaf image classification." _arXiv preprint_ arXiv:2106.08077
#' (2021).
#'
#' \url{https://github.com/SMART-Research/leaffeatures_paper}
#'
#' @examples
#' data(leaf_id_flavia)
#' str(leaf_id_flavia)
#'
NULL
tidymodels/modeldata documentation built on Oct. 23, 2024, 12:15 p.m.
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#' Leaf identification data (Flavia)
#'
#' @description
#' Image analysis of leaves to predict species.
#'
#' @name leaf_id_flavia
#' @aliases leaf_id_flavia
#' @docType data
#' @return \item{leaf_id_flavia}{a data frame}
#'
#' @details
#' From the original manuscript: "The Flavia dataset contains 1907 leaf images.
#' There are 32 different species and each has 50-77 images. Scanners and
#' digital cameras are used to acquire the leaf images on a plain background.
#' The isolated leaf images contain blades only, without a petiole. These leaf
#' images are collected from the most common plants in Yangtze, Delta,
#' China. Those leaves were sampled on the campus of the Nanjing University and
#' the Sun Yat-Sen arboretum, Nanking, China."
#'
#' The reference below has details information on the features used for
#' prediction.
#'
#' Columns:
#' \itemize{
#' \item \code{species}: factor (32 levels)
#' \item \code{apex}: factor (9 levels)
#' \item \code{base}: factor (6 levels)
#' \item \code{shape}: factor (5 levels)
#' \item \code{denate_edge}: factor (levels: 'no' and 'yes')
#' \item \code{lobed_edge}: factor (levels: 'no' and 'yes')
#' \item \code{smooth_edge}: factor (levels: 'no' and 'yes')
#' \item \code{toothed_edge}: factor (levels: 'no' and 'yes')
#' \item \code{undulate_edge}: factor (levels: 'no' and 'yes')
#' \item \code{outlying_polar}: numeric
#' \item \code{skewed_polar}: numeric
#' \item \code{clumpy_polar}: numeric
#' \item \code{sparse_polar}: numeric
#' \item \code{striated_polar}: numeric
#' \item \code{convex_polar}: numeric
#' \item \code{skinny_polar}: numeric
#' \item \code{stringy_polar}: numeric
#' \item \code{monotonic_polar}: numeric
#' \item \code{outlying_contour}: numeric
#' \item \code{skewed_contour}: numeric
#' \item \code{clumpy_contour}: numeric
#' \item \code{sparse_contour}: numeric
#' \item \code{striated_contour}: numeric
#' \item \code{convex_contour}: numeric
#' \item \code{skinny_contour}: numeric
#' \item \code{stringy_contour}: numeric
#' \item \code{monotonic_contour}: numeric
#' \item \code{num_max_ponits}: numeric
#' \item \code{num_min_points}: numeric
#' \item \code{diameter}: numeric
#' \item \code{area}: numeric
#' \item \code{perimeter}: numeric
#' \item \code{physiological_length}: numeric
#' \item \code{physiological_width}: numeric
#' \item \code{aspect_ratio}: numeric
#' \item \code{rectangularity}: numeric
#' \item \code{circularity}: numeric
#' \item \code{compactness}: numeric
#' \item \code{narrow_factor}: numeric
#' \item \code{perimeter_ratio_diameter}: numeric
#' \item \code{perimeter_ratio_length}: numeric
#' \item \code{perimeter_ratio_lw}: numeric
#' \item \code{num_convex_points}: numeric
#' \item \code{perimeter_convexity}: numeric
#' \item \code{area_convexity}: numeric
#' \item \code{area_ratio_convexity}: numeric
#' \item \code{equivalent_diameter}: numeric
#' \item \code{eccentriciry}: numeric
#' \item \code{contrast}: numeric
#' \item \code{correlation_texture}: numeric
#' \item \code{inverse_difference_moments}: numeric
#' \item \code{entropy}: numeric
#' \item \code{mean_red_val}: numeric
#' \item \code{mean_green_val}: numeric
#' \item \code{mean_blue_val}: numeric
#' \item \code{std_red_val}: numeric
#' \item \code{std_green_val}: numeric
#' \item \code{std_blue_val}: numeric
#' \item \code{correlation}: numeric
#' }
#' @source
#' Lakshika, Jayani PG, and Thiyanga S. Talagala. "Computer-aided interpretable
#' features for leaf image classification." _arXiv preprint_ arXiv:2106.08077
#' (2021).
#'
#' \url{https://github.com/SMART-Research/leaffeatures_paper}
#'
#' @examples
#' data(leaf_id_flavia)
#' str(leaf_id_flavia)
#'
NULL
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