Big Data, Data Science and Next Steps for the Undergrad Curriculum Nicholas Horton (Amherst College) and Johanna Hardin (Pomona College)

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Presentation transcript:

Big Data, Data Science and Next Steps for the Undergrad Curriculum Nicholas Horton (Amherst College) and Johanna Hardin (Pomona College) May 19, 2014

Acknowledgements Main task of the American Statistical Association committee to update the undergrad guidelines in statistics Also supported by NSF Project MOSAIC (building a community around modeling, statistics, computation and calculus,

Plan Challenges and opportunities Importance of data-related and computational capacities Specific recommendations Feedback and suggestions (please see handout at eCOTS website)

Related eCOTS Talks Mine Cetinkaya-Rundel (Duke) Planting seeds of reproducibility in intro stats with R Markdown Conrad Wolfram: Fundamentally changing maths education for the new era of data science John McKenzie (Babson) How intro stats instructors can Introduce big data through four of its Vs Richard De Veaux (Williams) & Daniel J. Kaplan (Macalester) Statistics for the 21st century: Are we teaching the right course? Horton, Prium, & Kaplan Teaching using R, RStudio, and the MOSAIC package

Related eCOTS posters David Kahle (Baylor): visualizing big data Dean Poeth (Union Graduate College): ethics and big data Snyder and Sharp (Clemson): Intro to statistical computing Amy Wagaman (Amherst): An introductory multivariate statistics course

Opportunities “Age of Big Data” arrived Tremendous demand for graduates with skills to make sense of it Number of students has increased dramatically (+ more with Common Core) Prior guidelines approved by ASA Board in 2000, widely promulgated and used What should be rethinking in terms of the undergraduate statistics curriculum?

Statistics degrees at the bachelor’s, master’s, and doctoral levels in the United States. These data include the following categories: statistics, general; mathematical statistics and probability; mathematics and statistics; statistics, other; and biostatistics. Data source: NCES Digest of Education Statistics.NCES Digest of Education Statistics

Challenges ACM White Paper on Data Science paper.pdf paper.pdf (first line) “The promise of data-driven decision-making is now being recognized broadly, and there is growing enthusiasm for the notion of Big Data.”

Challenges ACM White Paper on Data Science paper.pdf paper.pdf “Methods for querying and mining Big Data are fundamentally different from traditional statistical analysis on small samples” (first mention of statistics, page 7) Do statisticians just provide old-school tools for use by the new breed of data scientists?

Challenges Cobb argued (TISE, 2007) that our courses teach techniques developed by pre-computer- era statisticians as a way to address their lack of computational power Do our students see the potential and exciting use of statistics in our classes? (Gould, ISR, 2010) Finzer argued for the development of “data habits of mind” for K-12 (Finzer, TISE, 2013)

Challenges Nolan and Temple Lang (TAS, 2010) state that "the ability to express statistical computations is an essential skill" how do we ensure that students can “think with data” in the manner described by Diane Lambert (while posing and answering statistical questions) major changes to foster this capacity are needed in the statistics curriculum at the graduate and undergraduate levels

Challenges How do we respond to these external and internal challenges?

Process and structure ASA President Nat Schenker appointed a working group with representatives from academia, industry and government to make recommendations Goal: draft of revised recommendations and supporting materials by JSM 2014 in Boston (Go Sox!) Now soliciting feedback and suggestions

Proposed guidelines Principles Skills needed Curriculum topics (Degrees) Curriculum topics (Minors/Concentrations) Additional resources (detail and draft guidelines available on eCOTS program)

Updated key principles Equip students with statistical skills to use in flexible ways Emphasize concepts and tools for working with data Provide experience with design and analysis Distinct from mathematics: requires many non-mathematical skills

Skills needed Statistical Programming Data-related skills Mathematical foundations Communication We will focus on “data science” skills today, as part of the Big Data theme

But first, a little about you…

Computational Thinking Computational thinking is “the thought processes involved in formulating problems and their solutions so that the solutions are represented in a form that can effectively be carried out by an information-processing agent.” (Cuny, Snyder, and Wing, 2010)

Skills needed Programming topics: Graduates should have knowledge and capability in a programming language the ability to think algorithmically the ability to tackle programming/scripting tasks the ability to design and carry out simulation studies.

Skills needed Data-related topics: Graduates should have prowess with a professional statistical software package demonstrated skill in data management and manipulation knowledge of database technologies experience with project management and reproducible analysis tools

How to make this happen? Start early and often Build precursors into intro courses, build on these skills in second courses, integrate with capstone No silos! Requires reshaping many (all?) foundational and applied courses

How to make this happen? (Intro) Markdown in intro stats (Baumer et al, TISE, 2014, see Mine’s talk immediately following this) Big Data: bring flight delays dataset – airline on-time performance (120 million records) in intro and second courses (Data Expo 2009, JCGS article by Hadley Wickham) Data Collection: have students find (scrape) data from the web

How to make this happen? (Later) Statistical computing courses (e.g., Berkeley and Davis, see model curricula at Updated second courses Capstone experiences DataFest

One final polling question

Questions for Discussion (I) What do you feel is lacking in the guidelines and/or accompanying resources?

Questions for Discussion (II) What do you feel should not be included in the guidelines?

Questions for Discussion (III) What are the biggest barriers towards implementation?

Your turn… Thoughts? Questions? Please submit them via the chat window We welcome your feedback (ideally by the end of May!) to More information about the existing curriculum guidelines, background materials plus our recorded webinars can be found at:

References Baumer, B., Cetinkaya-Rundel, M., Bray, A., Loi, L. & Horton, N.J. (2014) R Markdown: Integrating a reproducible analysis tool into introductory statistics, TISE. Cobb, G. W. (2007). The introductory statistics course: a Ptolemaic curriculum?, TISE 1(1). Wing, JM (2010) Computational thinking: what and why? Finzer, W (2013). The data science education dilemma. TISE. Gould, R. (2010). Statistics and the modern student. ISR, 78(2): Horton, NJ (2013). I hear, I forget. I do, I understand: A modified Moore-Method mathematical statistics course, The American Statistician, 2013; 67:4, Nolan, D. & Temple Lang, D. (2010), Computing in the statistics curricula, The American Statistician, 64, 97–107. Wickham, H (2009). ASA 2009 Data Expo, JCGS. 20(2):

Big Data, Data Science and Next Steps for the Undergrad Curriculum Nicholas Horton (Amherst College) and Johanna Hardin (Pomona College) May 19, 2014