--- title: "A/B test" author: "Roland Krasser" date: "`r Sys.Date()`" output: rmarkdown::html_vignette vignette: > %\VignetteIndexEntry{A/B test} %\VignetteEngine{knitr::rmarkdown} %\VignetteEncoding{UTF-8} --- ```{r setup, include = FALSE} knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ``` The explore package offers an easy way to do basic A/B testing. ### Interactive A/B testing For interactive A/B testing simply call `abtest()` without any parameters. ![](../man/figures/abtest-shiny.png){width=600px} ### A/B testing with tidy data If you want to A/B test your own data, pass them into the ´abtest()´ function. In this example we are using synthetic data using one of the `create_data_()` functions of `{explore}` ```{r message=FALSE, warning=FALSE} library(dplyr) library(explore) data <- create_data_buy(obs = 1000) ``` #### Describe dataset ```{r message=FALSE, warning=FALSE} data %>% describe() ``` Each observation is a customer. The ´buy´ variable contains 0/1 values (1 = the customer did buy a product) #### Hypothesis age > 50 We want to test the hypothesis, that customer with age > 50 have a different buying behavior. ```{r message=FALSE, warning=FALSE, fig.width=5} data %>% explore(age, target = buy) ``` We see a clear pattern, that people who buy differ in age from people who don´t buy. But is this difference statistically significant? ```{r message=FALSE, warning=FALSE, fig.width=5} data %>% abtest(age > 50, target = buy, sign_level = 0.05) ``` The A/B test shows a statistically significant difference! #### Hypothesis Mobile Voice vs Broadband Usage We would like to test the hypothesis, that customer with a mobile voice product (mobilevoice_ind == 1) have different bbi_usg_gb (broadband usage in GB) ```{r message=FALSE, warning=FALSE, fig.width=5} data %>% explore(mobilevoice_ind, target = bbi_usg_gb) ``` The boxplot shows a small difference in Broadband Usage between customers with/without Mobile Voice product. But is this difference statistically significant? ```{r message=FALSE, warning=FALSE, fig.width=5} data %>% abtest(mobilevoice_ind == 1, target = bbi_usg_gb, sign_level = 0.05) ``` The A/B test shows a NOT statistically significant difference! The p-value is 0.09, but should be max. 0.05 (as we defined sign_level = 0.05) ### A/B testing with count data In this example we are using the Titanic datasst. `use_data_titanic()` is a functions of `{explore}` that makes it easier to use popular example datasets. ```{r message=FALSE, warning=FALSE} library(dplyr) library(explore) data <- use_data_titanic(count = TRUE) ``` #### Describe dataset ```{r message=FALSE, warning=FALSE} data %>% describe() ``` #### Hypothesis Female We want to test the hypothesis, that female passengers have a higher chance to survive. ```{r message=FALSE, warning=FALSE, fig.width=5} data %>% explore(Sex, target = Survived, n = n) ``` We see a clear pattern, but is it difference statistically significant? ```{r message=FALSE, warning=FALSE, fig.width=5} data %>% abtest(Sex == "Female", target = Survived, n = n, sign_level = 0.05) ``` The A/B test shows a statistically significant difference!