Shuchi Grover is an Indian-American learning scientist and computer scientist whose work as a computer science education and AI literacy researcher is widely recognized. Her seminal research on computational thinking and how to design effective computationally rich educational experiences for children has shaped policies and curricula on computational literacy worldwide.[1][3]

Shuchi Grover
Alma materStanford University
Harvard University
Scientific career
FieldsComputer science education
Computational thinking
STEM education
Data science
AI education[1]
ThesisFoundations for advancing computational thinking : balanced designs for deeper learning in an online computer science course for middle school students (2014)
Doctoral advisorRoy Pea[2]
Websitewww.shuchigrover.com Edit this at Wikidata

Early life and education

edit

Grover completed her undergraduate studies in India at Birla Institute of Technology and Science, Pilani, majoring in computer science and physics. She earned a master's degree in computer science from Case Western Reserve University where her masters thesis involved developing software for music students.[4] As part of this project, she used digital repositories to store score sheets. It was her first introduction to the potential of technology to accelerate student learning.[4] After a career in software engineering, she made a shift to diverse issues in education like teaching and learning with technology, online learning, and computational thinking in children.[5] She earned a master's degree in Technology, Innovation, and Education at Harvard, before moving to California.[4] Grover focused on learning sciences at Stanford University for her doctoral research, which investigated advanced computational thinking for deep learning in middle school students and was supervised by Roy Pea.[2] She developed a 6-week Stanford OpenEdX course to introduce middle school students to computer sciences.[6]

Research and career

edit

In 2014, she argued that to increase the number of women in technology, computer science should be taught in US schools, and computer scientists should act to diminish the "nerd" stereotype.[7]

Grover has led or co-led several research projects funded by the National Science Foundation. She has authored over 100 well-cited peer-reviewed conference papers and journal articles, book chapters, and mainstream articles.[8] Grover's book on Computer Science in K-12: An A-to-Z Handbook on Teaching Programming included contributions from 40 researchers and educators of computer science from around the world.

Grover's research on developing computational competencies in school education is recognized globally. She advises ministries of education, organizations such as OECD's Programme for International Student Assessment (PISA), EU's Joint Research Centre, and national well as trans-national education projects. She is invited for keynote addresses and presentations worldwide.

Awards and Recognition

edit

In 2010, Grover was awarded an Amir Lopatin Fellowship to study computational thinking in K-12 students.[9] She is particularly interested in how computational learning could be a social driver.[9][10] As part of the fellowship, Grover studied middle school students in Bangalore. Her research investigated the various dimensions of computational thinking and how children choose what to value and engage with.[9]

The US National Academies Division of Behavioral and Social Sciences and Education selected Grover for the 2024 Henry and Bryna David award, given to a leading researcher who has drawn insights from the behavioral and social sciences to inform public policy.[11]

Dr. Shuchi Grover's paper on Teaching AI in K-12: Lessons, Issues, and Guidance[12] won the best paper award at the Association for Computing Machinery (ACM)'s SIGCSE Technical Symposium on Computer Science Education conference in March 2024.


Selected publications

edit
  • Grover, Shuchi; Pea, Roy (2013). "Computational Thinking in K–12". Educational Researcher. 42 (1): 38–43. doi:10.3102/0013189x12463051. ISSN 0013-189X. S2CID 145509282.
  • Grover, Shuchi; Pea, Roy; Cooper, Stephen (2015-04-03). "Designing for deeper learning in a blended computer science course for middle school students". Computer Science Education. 25 (2): 199–237. Bibcode:2015CSEd...25..199G. doi:10.1080/08993408.2015.1033142. ISSN 0899-3408. S2CID 557120.
  • Grover, Shuchi; Pea, Roy (2018), "Computational Thinking: A Competency Whose Time Has Come", Computer Science Education, Bloomsbury Academic, doi:10.5040/9781350057142.ch-003, ISBN 978-1-3500-5714-2

References

edit
  1. ^ a b Shuchi Grover publications indexed by Google Scholar  
  2. ^ a b Grover, Shuchi (2014). Foundations for advancing computational thinking: balanced designs for deeper learning in an online computer science course for middle school students. stanford.edu (PhD thesis). Stanford University. OCLC 887992596.
  3. ^ Grover, Shuchi (2020). "Formative assessment for students in CS classrooms". youtube.com. Raspberry Pi Foundation.
  4. ^ a b c "Meet Shuchi Grover – CIRCL". circlcenter.org. Retrieved 2022-06-02.
  5. ^ "Dr. Shuchi Grover Bio on EdSurge". EdSurge. Retrieved 2024-03-02.
  6. ^ "New Dissertation Announcement - Dr. Shuchi Grover". ISLS. 2014-11-14. Retrieved 2022-06-02.
  7. ^ University, Stanford; Stanford; California 94305 (2014-01-08). "Want more women in tech? Fix the misperceptions of computer science (article by Shuchi Grover)". Stanford Graduate School of Education. Retrieved 2022-06-02.{{cite web}}: CS1 maint: numeric names: authors list (link)
  8. ^ "Shuchi Grover publications". Shuchi Grover. Retrieved 2024-07-11.
  9. ^ a b c University, Stanford; Stanford; California 94305 (2010-07-21). "LSTD students Grover and Rogers awarded this year's Amir Lopatin Fellowships". Stanford Graduate School of Education. Retrieved 2022-06-02.{{cite web}}: CS1 maint: numeric names: authors list (link)
  10. ^ "Stanford Computer Forum - Poster Sessions". forum.stanford.edu. Retrieved 2022-06-02.
  11. ^ "The Henry and Bryna David Lecture". National Academies. Retrieved 2024-09-25.
  12. ^ "Teaching AI in K-12: Lessons, Issues, and Guidance" (PDF). ACM Digital Library. Retrieved 2024-08-24.