CRAN Package Check Results for Maintainer ‘Carlos Javier Hellin Asensio <carlos.hellin at uah.es>’

Last updated on 2024-11-09 01:49:57 CET.

Package NOTE OK
LearningRlab 10 3

Package LearningRlab

Current CRAN status: NOTE: 10, OK: 3

Version: 2.4
Check: Rd files
Result: NOTE checkRd: (-1) LearningRlab.Rd:12: Lost braces 12 | \cr{Dennis Monheimius, \email{dennis.monhemimius@edu.uah.es}} | ^ checkRd: (-1) LearningRlab.Rd:13: Lost braces 13 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) LearningRlab.Rd:14: Lost braces 14 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) LearningRlab.Rd:15: Lost braces 15 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) LearningRlab.Rd:16: Lost braces 16 | \cr {Maintainer: Eduardo Benito \email{eduardo.benito@edu.uah.com}} | ^ checkRd: (-1) averageDeviation_.Rd:17: Lost braces 17 | \details{To calculate the average deviation, the user should give a numbers vector. The result is the sum of the differences in absolute value between each vector element and the mean, divided by the number of elemets. The average absolute deviation formule is the following: \cr{\if{latex}{\figure{averageDeviation.jpg}{options: width=3.5in}} \if{html}{\figure{averageDeviation.jpg}{options: width=336}}}} | ^ checkRd: (-1) averageDeviation_.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) averageDeviation_.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) averageDeviation_.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) binomial_.Rd:19: Lost braces 19 | \details{To calculate the binomial distribution, the user should give three number (the number of trials, probability of success and binomial random variable). The result is a discrete probability distribution that counts the number of successes in a sequence of n independent Bernoulli trials with a fixed probability p of occurrence of success between trials. The binomial distribution formule is the following: \cr{\if{latex}{\figure{binomial.jpg}{options: width=3.5in}} \if{html}{\figure{binomial.jpg}{options: width=336}}}} | ^ checkRd: (-1) binomial_.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) binomial_.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) chisquared_.Rd:18: Lost braces 18 | \details{To calculate the chisquared distribution, the user should give two vectors of numbers. The result is a sum of the squares of k independent standard normal random variables. The chisquared distribution formule is the following: \cr{\if{latex}{\figure{chisquared.jpg}{options: width=3.5in}} \if{html}{\figure{chisquared.jpg}{options: width=336}}}} | ^ checkRd: (-1) chisquared_.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) chisquared_.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) covariance_.Rd:18: Lost braces 18 | \details{To calculate the covariance, the user should give two vectors of numbers. The result is a measure of the joint variability of two vectors of numbers. The covariance formule is the following: \cr{\if{latex}{\figure{covariance.jpg}{options: width=3.5in}} \if{html}{\figure{covariance.jpg}{options: width=336}}}} | ^ checkRd: (-1) covariance_.Rd:24: Lost braces 24 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) covariance_.Rd:25: Lost braces 25 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) covariance_.Rd:26: Lost braces 26 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) cv_.Rd:17: Lost braces 17 | \details{To calculate the coefficient of variation, the user should give a numbers vector. The result is defined as the ratio of the standard deviation to the mean. The coefficient of variation formule is the following: \cr{\if{latex}{\figure{cv.jpg}{options: width=2.5in}} \if{html}{\figure{cv.jpg}{options: width=240}}}} | ^ checkRd: (-1) cv_.Rd:22: Lost braces 22 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) cv_.Rd:23: Lost braces 23 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) drawVector.Rd:25: Lost braces 25 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) drawVector.Rd:26: Lost braces 26 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) drawVector.Rd:27: Lost braces 27 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.absolute_acum_frecuency.Rd:17: Lost braces 17 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.absolute_acum_frecuency.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.absolute_acum_frecuency.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.averageDeviation.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.averageDeviation.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.averageDeviation.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.binomial.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.binomial.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.chisquared.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.chisquared.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.covariance.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.covariance.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.cv.Rd:22: Lost braces 22 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.cv.Rd:23: Lost braces 23 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.fisher.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.fisher.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.frecuency_abs.Rd:18: Lost braces 18 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.frecuency_abs.Rd:19: Lost braces 19 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.frecuency_abs.Rd:20: Lost braces 20 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.frecuency_relative.Rd:17: Lost braces 17 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.frecuency_relative.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.frecuency_relative.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.geometricMean.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.geometricMean.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.geometricMean.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.harmonicMean.Rd:22: Lost braces 22 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.harmonicMean.Rd:23: Lost braces 23 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.laplace.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.laplace.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.mean.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.mean.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.mean.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.median.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.median.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.median.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.mode.rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.mode.rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.mode.rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.normal.Rd:22: Lost braces 22 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.normal.Rd:23: Lost braces 23 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.pearson.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.pearson.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.percentile.Rd:16: Lost braces 16 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.percentile.Rd:17: Lost braces 17 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.percentile.Rd:18: Lost braces 18 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.poisson.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.poisson.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.quartile.Rd:16: Lost braces 16 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.quartile.Rd:17: Lost braces 17 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.quartile.Rd:18: Lost braces 18 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.relative_acum_frecuency.Rd:17: Lost braces 17 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.relative_acum_frecuency.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.relative_acum_frecuency.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.standardDeviation.Rd:24: Lost braces 24 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.standardDeviation.Rd:25: Lost braces 25 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.standardDeviation.Rd:26: Lost braces 26 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.tstudent.Rd:25: Lost braces 25 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.tstudent.Rd:26: Lost braces 26 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) explain.variance.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) explain.variance.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) explain.variance.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) fisher_.Rd:18: Lost braces 18 | \details{To calculate the fisher distribution, the user should give two vectors of numbers. The result is a continuous probability distribution that arises frequently as the null distribution of a test statistic. The fisher distributionformule is the following: \cr{\if{latex}{\figure{fisher.jpg}{options: width=3.5in}} \if{html}{\figure{fisher.jpg}{options: width=336}}}} | ^ checkRd: (-1) fisher_.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) fisher_.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) frecuency_abs.Rd:12: Lost braces 12 | \details{The absolute frecuency formula is the following: \cr{\if{latex}{\figure{absolutefrec.jpg}{options: width=3.5in}} \if{html}{\figure{absolutefrec.jpg}{options: width=336}}}} | ^ checkRd: (-1) frecuency_abs.Rd:17: Lost braces 17 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) frecuency_abs.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) frecuency_abs.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) frecuency_absolute_acum.Rd:12: Lost braces 12 | \details{The accumulated absolute frecuency formula is the following: \cr{\if{latex}{\figure{absoluteacumfrec.jpg}{options: width=3.5in}} \if{html}{\figure{absoluteacumfrec.jpg}{options: width=336}}}} | ^ checkRd: (-1) frecuency_absolute_acum.Rd:17: Lost braces 17 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) frecuency_absolute_acum.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) frecuency_absolute_acum.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) frecuency_relative.Rd:12: Lost braces 12 | \details{The relative frecuency formula is the following: \cr{\if{latex}{\figure{relativefrec.jpg}{options: width=3.5in}} \if{html}{\figure{relativefrec.jpg}{options: width=336}}}} | ^ checkRd: (-1) frecuency_relative.Rd:17: Lost braces 17 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) frecuency_relative.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) frecuency_relative.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) frecuency_relative_acum.Rd:12: Lost braces 12 | \details{The accumulated relative frecuency formula is the following: \cr{\if{latex}{\figure{relativeacumfrec.jpg}{options: width=3.5in}} \if{html}{\figure{relativeacumfrec.jpg}{options: width=336}}}} | ^ checkRd: (-1) frecuency_relative_acum.Rd:17: Lost braces 17 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) frecuency_relative_acum.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) frecuency_relative_acum.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) geometricMean_.Rd:17: Lost braces 17 | \details{To calculate the geometric mean of a dataset, the user should give a numbers vector. The result is the product of all vector elements raise to 1 divided by the number of elements. The arithmetic mean formule is the following: \cr{\if{latex}{\figure{gmean.jpg}{options: width=3.5in}} \if{html}{\figure{gmean.jpg}{options: width=336}}}} | ^ checkRd: (-1) geometricMean_.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) geometricMean_.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) geometricMean_.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) getUserAction.Rd:21: Lost braces 21 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) getUserAction.Rd:22: Lost braces 22 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) getUserAction.Rd:23: Lost braces 23 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) harmonicMean_.Rd:17: Lost braces 17 | \details{To calculate the harmonic mean, the user should give a numbers vector. The result is calculated by dividing the number of observations by the reciprocal of each number in the vector. The harmonic mean formule is the following: \cr{\if{latex}{\figure{harmonicMean.jpg}{options: width=3.5in}} \if{html}{\figure{harmonicMean.jpg}{options: width=336}}}} | ^ checkRd: (-1) harmonicMean_.Rd:22: Lost braces 22 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) harmonicMean_.Rd:23: Lost braces 23 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) initImages.Rd:25: Lost braces 25 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) initImages.Rd:26: Lost braces 26 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) initImages.Rd:27: Lost braces 27 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.absolute_acum_frecuency.Rd:20: Lost braces 20 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.absolute_acum_frecuency.Rd:21: Lost braces 21 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.absolute_acum_frecuency.Rd:22: Lost braces 22 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.absolute_frecuency.Rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.absolute_frecuency.Rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.absolute_frecuency.Rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.averageDeviation.Rd:21: Lost braces 21 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.binomial.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.binomial.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.chisquared.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.chisquared.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.covariance.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.covariance.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.cv.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.cv.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.fisher.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.fisher.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.geometricMean.Rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.geometricMean.Rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.geometricMean.Rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.harmonicMean.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.harmonicMean.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.laplace.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.laplace.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.mean.rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.mean.rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.mean.rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.median.Rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.median.Rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.median.Rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.mode.rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.mode.rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.mode.rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.normal.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.normal.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.pearson.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.pearson.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.percentile.Rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.percentile.Rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.percentile.Rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.poisson.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.poisson.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.quartile.Rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.quartile.Rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.quartile.Rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.relative_acum_frecuency.Rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.relative_acum_frecuency.Rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.relative_acum_frecuency.Rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.relative_frecuency.Rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.relative_frecuency.Rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.relative_frecuency.Rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.standardDeviation.Rd:21: Lost braces 21 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.tstudent.Rd:18: Lost braces 18 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.tstudent.Rd:19: Lost braces 19 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) interactive.variance.Rd:19: Lost braces 19 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) interactive.variance.Rd:20: Lost braces 20 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) interactive.variance.Rd:21: Lost braces 21 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) laplace_.Rd:18: Lost braces 18 | \details{To calculate the Laplace's rule, the user should give two vector (unfavorable cases/favorable cases). The result isas the quotient between the number of favorable cases to A, and that of all possible results of the experiment. The Laplace's rule formule is the following: \cr{\if{latex}{\figure{laplace.jpg}{options: width=3.5in}} \if{html}{\figure{laplace.jpg}{options: width=336}}}} | ^ checkRd: (-1) laplace_.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) laplace_.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) meanC.Rd:17: Lost braces 17 | \details{To calculate the arithmetic mean of a dataset, the user should give a numbers vector. The result is the addition of all vector elements divided by the number of elements. The arithmetic mean formule is the following: \cr{\figure{amean.jpg}} | ^ checkRd: (-1) meanC.Rd:24: Lost braces 24 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) meanC.Rd:25: Lost braces 25 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) meanC.Rd:26: Lost braces 26 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) mean_.Rd:17: Lost braces 17 | \details{To calculate the arithmetic mean of a dataset, the user should give a numbers vector. The result is the addition of all vector elements divided by the number of elements. The arithmetic mean formule is the following: \cr{\figure{amean.jpg}} | ^ checkRd: (-1) mean_.Rd:24: Lost braces 24 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) mean_.Rd:25: Lost braces 25 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) mean_.Rd:26: Lost braces 26 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) median_.Rd:17: Lost braces 17 | \details{To calculate the median, the user should give a numbers vector. The result is the value separating the higher half from the lower half of the dataset, it may be thought of as the middle value. The median formule is the following: \cr{\if{latex}{\figure{median.jpg}{options: width=3.5in} \if{html}{\figure{median.jpg}{options: width=336}}}} | ^ checkRd: (-1) median_.Rd:24: Lost braces 24 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) median_.Rd:25: Lost braces 25 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) median_.Rd:26: Lost braces 26 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) mode_.rd:17: Lost braces 17 | \details{To calculate the mode of a dataset, the user should give a numbers vector. The result is the numeric value that appears most often. In other words, it's the value that is most likely to be sampled. The mode formule is the following: \cr{\if{latex}{\figure{mode.jpg}{options: width=2.5in}} \if{html}{\figure{mode.jpg}{options: width=240}}}} | ^ checkRd: (-1) mode_.rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) mode_.rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) mode_.rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) normal_.Rd:17: Lost braces 17 | \details{To calculate the normal distribution, the user should give a number. The result isis a type of continuous probability distribution for a real-valued random variable. The normal distribution formule is the following: \cr{\if{latex}{\figure{normal.jpg}{options: width=2.5in}} \if{html}{\figure{normal.jpg}{options: width=240}}}} | ^ checkRd: (-1) normal_.Rd:22: Lost braces 22 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) normal_.Rd:23: Lost braces 23 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) pearson_.Rd:18: Lost braces 18 | \details{To calculate the pearson correlation, the user should give two vectors of numbers. The result is the covariance of the two vectors of numbers divided by the product of their standard deviations. The pearson correlation formule is the following: \cr{\if{latex}{\figure{pearson.jpg}{options: width=3.5in}} \if{html}{\figure{pearson.jpg}{options: width=336}}}} | ^ checkRd: (-1) pearson_.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) pearson_.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) percentile_.Rd:12: Lost braces 12 | \details{To calculate the percentiles, the user should give a vector. This function divide the dataset in 100 parts as equal as possible. The formula is the following: \cr{\if{latex}{\figure{percentile.jpg}{options: width=3.5in}} \if{html}{\figure{percentile.jpg}{options: width=336}}}} | ^ checkRd: (-1) percentile_.Rd:18: Lost braces 18 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) percentile_.Rd:19: Lost braces 19 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) percentile_.Rd:20: Lost braces 20 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) poisson_.Rd:18: Lost braces 18 | \details{To calculate the Poisson distribution, the user should give two number ( the number of times the phenomenon and the number of occurrences). The result is a discrete probability distribution that expresses, from a mean frequency of occurrence, the probability that a certain number of events will occur during a certain period of time. The Poisson distribution formule is the following: \cr{\if{latex}{\figure{poisson.jpg}{options: width=3.5in}} \if{html}{\figure{poisson.jpg}{options: width=336}}}} | ^ checkRd: (-1) poisson_.Rd:23: Lost braces 23 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) poisson_.Rd:24: Lost braces 24 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) quartile_.Rd:12: Lost braces 12 | \cr{\if{latex}{\figure{quartile.jpg}{options: width=3.5in}} \if{html}{\figure{quartile.jpg}{options: width=336}}}} | ^ checkRd: (-1) quartile_.Rd:18: Lost braces 18 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) quartile_.Rd:19: Lost braces 19 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) quartile_.Rd:20: Lost braces 20 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) standardDeviation_.Rd:17: Lost braces 17 | \details{To calculate the standard deviation, the user should give a numbers vector. The result is the square root of the sum of the differences between each vector element and the mean squared divided by the number of elemets. The standard deviation formule is the following: \cr{\if{latex}{\figure{sdeviat.jpg}{options: width=2.5in}} \if{html}{\figure{sdeviat.jpg}{options: width=240}}}} | ^ checkRd: (-1) standardDeviation_.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) standardDeviation_.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) standardDeviation_.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) tstudent_.Rd:20: Lost braces 20 | \details{To calculate the T-Student distribution, the user should give four number (sample mean, population mean, population standard deviation and sample size). The result is a probability distribution that arises from the problem of estimating the mean of a normally distributed population when the sample size is small. The T-Student distributionformule is the following: \cr{\if{latex}{\figure{tstudent.jpg}{options: width=2.5in}} \if{html}{\figure{tstudent.jpg}{options: width=240}}}} | ^ checkRd: (-1) tstudent_.Rd:25: Lost braces 25 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) tstudent_.Rd:26: Lost braces 26 | \cr{Universidad de Alcala de Henares} | ^ checkRd: (-1) variance_.Rd:17: Lost braces 17 | \details{To calculate the variance, the user should give a numbers vector. The result is the expectation of the squared deviation of all numbers vector from its mean. The variance formule is the following: \cr{\if{latex}{\figure{variance.jpg}{options: width=2.5in}} \if{html}{\figure{variance.jpg}{options: width=240}}}} | ^ checkRd: (-1) variance_.Rd:23: Lost braces 23 | \cr{Eduardo Benito, \email{eduardo.benito@edu.uah.es}} | ^ checkRd: (-1) variance_.Rd:24: Lost braces 24 | \cr{Juan Jose Cuadrado, \email{jjcg@uah.es}} | ^ checkRd: (-1) variance_.Rd:25: Lost braces 25 | \cr{Universidad de Alcala de Henares} | ^ Flavors: r-devel-linux-x86_64-debian-clang, r-devel-linux-x86_64-debian-gcc, r-devel-linux-x86_64-fedora-clang, r-devel-linux-x86_64-fedora-gcc, r-devel-windows-x86_64, r-patched-linux-x86_64, r-release-linux-x86_64, r-release-macos-arm64, r-release-macos-x86_64, r-release-windows-x86_64

These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.