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Intro Stats and Intro Data Science - Do We Need...

Intro Stats and Intro Data Science - Do We Need Both?

Short answer, it depends -- depends on the definition of "Intro Stats" and "Data Science". In this talk we discuss different approaches to introduction to statistics and data science how these approaches can fit into broader curricula. We will give examples from a new data science course offered at Duke University serving as both gateway to the statistics major as well as an introduction to quantitative reasoning for all students. We will discuss decisions that went into designing the course curriculum, emphasizing departures from and similarities to a more traditional introduction to statistics.

Mine Cetinkaya-Rundel

July 31, 2018
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  1. 1 NOT a commonly used subset of tests and intervals

    and produce them with hand calculations 2 Multivariate analysis requires the use of computing 3 NOT use technology that is only applicable in the intro course or that doesn’t follow good science principles 4 Data analysis isn’t just inference and modeling, it’s also data importing, cleaning, preparation, exploration, and visualization bit.ly/intro-stat-ds
  2. So, what does this mean? ‣ A course that satisfies

    these four points is looking more like today’s intro data science courses than (most) intro stats courses ‣ But this is not because intro stats is inherently “bad for you” ‣ Instead it is because it’s time to visit intro stats in light of emergence of data science bit.ly/intro-stat-ds
  3. An intro data science & statistical thinking curriculum Visualizing data

    Wrangling data Making rigorous conclusions Looking forward Fundamentals of data & data viz, confounding variables, Simpson’s paradox (R + RStudio + R Markdown + git/GitHub) Tidy data, data frames vs. summary tables, recoding and transforming variables, web scraping and iteration Building and selecting models, visualizing interactions, prediction & model validation, inference via simulation Interactive viz & reporting with Shiny, text analysis, Bayesian inference, ??? bit.ly/intro-stat-ds
  4. bit.ly/intro-stat-ds unvotes: Erik Voeten "Data and Analyses of Voting in

    the UN General Assembly" Routledge Handbook of International Organization, edited by Bob Reinalda (published May 27, 2013)
  5. un_votes %>% filter(country %in% c("United States of America", "Turkey")) %>%

    inner_join(un_roll_calls, by = "rcid") %>% inner_join(un_roll_call_issues, by = "rcid") %>% group_by(country, year = year(date), issue) %>% summarize( votes = n(), percent_yes = mean(vote !== "yes") ) %>% filter(votes > 5) %>% # only use records where there are more than 5 votes ggplot(mapping = aes(x = year, y = percent_yes, color = country)) + geom_point() + geom_smooth(method = "loess", se = FALSE) + facet_wrap(~ issue) + labs( title = "Percentage of 'Yes' votes in the UN General Assembly", subtitle = "1946 to 2015", y = "% Yes", x = "Year", color = "Country" ) bit.ly/intro-stat-ds
  6. un_votes %>% filter(country %in% c("United States of America", "Turkey")) %>%

    inner_join(un_roll_calls, by = "rcid") %>% inner_join(un_roll_call_issues, by = "rcid") %>% group_by(country, year = year(date), issue) %>% summarize( votes = n(), percent_yes = mean(vote !== "yes") ) %>% filter(votes > 5) %>% # only use records where there are more than 5 votes ggplot(mapping = aes(x = year, y = percent_yes, color = country)) + geom_point() + geom_smooth(method = "loess", se = FALSE) + facet_wrap(~ issue) + labs( title = "Percentage of 'Yes' votes in the UN General Assembly", subtitle = "1946 to 2015", y = "% Yes", x = "Year", color = "Country" ) bit.ly/intro-stat-ds
  7. un_votes %>% filter(country %in% c("United States of America", “Canada")) %>%

    inner_join(un_roll_calls, by = "rcid") %>% inner_join(un_roll_call_issues, by = "rcid") %>% group_by(country, year = year(date), issue) %>% summarize( votes = n(), percent_yes = mean(vote !== "yes") ) %>% filter(votes > 5) %>% # only use records where there are more than 5 votes ggplot(mapping = aes(x = year, y = percent_yes, color = country)) + geom_point() + geom_smooth(method = "loess", se = FALSE) + facet_wrap(~ issue) + labs( title = "Percentage of 'Yes' votes in the UN General Assembly", subtitle = "1946 to 2015", y = "% Yes", x = "Year", color = "Country" ) bit.ly/intro-stat-ds
  8. Learning goals ‣ Main: Multivariate data visualization on day one

    of class ‣ Get for free: Your first experience writing code on day one of class bit.ly/intro-stat-ds
  9. bike %>% filter(season == "Winter") %>% summarise(max = max(cnt), day_min

    = dteday[which.max(cnt)]) ## # A tibble: 1 x 2 ## min day_min ## <dbl> <date> ## 1 7836 2012-03-17 bit.ly/intro-stat-ds
  10. bike %>% filter(season == "Fall") %>% summarise(min = min(cnt), day_min

    = dteday[which.min(cnt)]) ## # A tibble: 1 x 2 ## min day_min ## <dbl> <date> ## 1 22.0 2012-10-29 bit.ly/intro-stat-ds
  11. Learning goals ‣ Main: Prediction and model selection ‣ Get

    for free: Use of outside data bit.ly/intro-stat-ds
  12. Two paintings very rich in composition, of a beautiful execution,

    and whose merit is very remarkable, each 17 inches 3 lines high, 23 inches wide; the first, painted on wood, comes from the Cabinet of Madame la Comtesse de Verrue; it represents a departure for the hunt: it shows in the front a child on a white horse, a man who gives the horn to gather the dogs, a falconer and other figures nicely distributed across the width of the painting; two horses drinking from a fountain; on the right in the corner a lovely country house topped by a terrace, on which people are at the table, others who play instruments; trees and fabriques pleasantly enrich the background. bit.ly/intro-stat-ds
  13. pp <- pp %>% mutate( Shape = fct_collapse(Shape, oval =

    c("oval", "ovale"), round = c("round", "ronde"), squ_rect = "squ_rect", other = c("octogon", "octagon", "miniature")), mat = fct_collapse(mat, metal = c("a", "br", "c"), canvas = c("co", "t", "ta"), paper = c("p", "ca"), wood = "b", other = c("e", "g", "h", "mi", "o", "pa", "v", "al", "ar", "m")) ) bit.ly/intro-stat-ds ‣ mat - category of material (a=silver, al=alabaster, ar=slate, b=wood, bc=wood and copper, br=bronze frames, bt=canvas on wood, c=copper, ca=cardboard, co=cloth, e=wax, g=grissaille technique, h=oil technique, m=marble, mi=miniature technique, o=other, p=paper, pa=pastel, t=canvas, ta=canvas?, v=glass, n/a=NA, (blanks)=NA) ‣ Shape - shape of painting
  14. Learning goals ‣ Main: data provenance + modelling diagnostic, log

    transformation ‣ Get for free: iterative data cleanup informed by analysis results + experience working with #otherpeoplesdata bit.ly/intro-stat-ds
  15. library(tidyverse) library(rvest) page !<- read_html("https:!//!!www.ratebeer.com/breweries/north%20carolina/33/213/") names !<- page %>% html_nodes("#brewerTable

    a:nth-child(1)") %>% html_text() %>% str_trim() active_cities !<- page %>% html_nodes(".filter") %>% html_text() closed_cities !<- page %>% html_nodes("#brewerTable span") %>% html_text() cities !<- c(active_cities, closed_cities) … ncbreweries !<- tibble( name = names, city = cities, … ) write_csv(ncbreweries, path = "data/ncbreweries.csv") bit.ly/intro-stat-ds
  16. Learning goals ‣ Main: data harvesting ‣ Get for free:

    working with text data + iteration bit.ly/intro-stat-ds
  17. Myths 1. Students aren’t interested in learning programming 2. It’s

    not possible to teach statistical concepts and programming in just one course 3. Teaching programming takes up valuable time that can otherwise be used towards teaching important statistical concepts bit.ly/intro-stat-ds
  18. So, do we need both … intro data science and

    intro stats? ‣ Yes, and no ‣ No need to frame data science as a technical field that only students with certain (computational) interest and experience are interested in ‣ Also no need to think of the intro stats course as the course where students who don’t fall in that bucket go into bit.ly/intro-stat-ds
  19. Goal Learn from both courses to come up with a

    course ‣ that addresses current guidelines ‣ is modern and current ‣ and with sufficient resources to help faculty who are new to it teach it bit.ly/intro-stat-ds
  20. So, everyone goes into the same course? It depends… ‣

    How many students are you serving, and will you need to split them into separate sections anyway? ‣ Suggestion: Split based on those planning on taking only 1-2 stats courses anyway vs. those planning on a quantitative major ‣ Students can change their mind, but this will serve most well. ‣ Do the courses serving these two audiences differ? ‣ Potentially… ‣ Think about what is essential for students to be exposed to in the first (maybe only) course vs. what can wait till a second course? ‣ E.g. Computing and reproducibility is non-negotiable, but could version control wait? bit.ly/intro-stat-ds