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Craig Prince General Examination Talk January 17, 2008

Craig Prince General Examination Talk January 17, 2008. 1. Motivation. Goal: Improve education by integrating computing devices into classroom. Do in low-cost, sustainable way. One way, leverage devices students carry!. 2. Before I Begin…. Who has a laptop or Tablet PC with them?

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Craig Prince General Examination Talk January 17, 2008

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  1. Craig Prince General Examination Talk January 17, 2008 1

  2. Motivation Goal: Improve education by integrating computing devices into classroom. Do in low-cost, sustainable way. One way, leverage devices students carry! 2

  3. Before I Begin… • Who has a laptop or Tablet PC with them? • Who has a cell phone or PDA with them? College Students: 86.1% Cell Phone 12.0% Smart Phone 11.9% PDA 56.3% Digital Gaming Device 73.7% Laptop Source: The ECAR Study of Undergraduate Students and Information Technology, 2007

  4. My Talk – In Three Parts • Part I: Background • Active Learning • Classroom Responses Systems (CRSs) • Different CRS activities • Part II: Systems • Tablet PC-based • Handhelds • Part III: Future Work • Improve type of exercises on handhelds • Integrate diverse handhelds into class 4

  5. Part I: Background • Active Learning • Classroom Responses Systems (CRSs) • Different CRS activities

  6. Active Learning = teaching pedagogy were best way to teach students is to have them be active in the learning process Abrahamson’s “Socratic teaching” method “Constructivism” vs. “Behaviorism” Student needs to: Build on existing mental framework Incorporate existing knowledge and ideas Active Learning Abrahamson A. L. “Teaching with Classroom Communication System – What it Involves and Why it Works”. Mini-Course presented at the VII Taller Internacional "Nuevas Tendencias en la Ensenanza de la Fisica". Puebla, Mexico, May 27-30, 1999. 6

  7. Quantitative Evidence • Hake’s study • 62 physics courses • >6000 students • Set taught interactively • Set taught traditionally (lecture focus) • Students in interactive courses had learning gains 2 std. dev. greater than traditional courses Hake R. “Interactive-engagement Versus Traditional Methods: A Six-thousand-student Survey of Mechanics Test Data for Introductory Physics Courses”. American Journal of Physics, 66 (1), Jan. 1998.

  8. Active Learning in the Classroom • Mazur’s “Peer Instruction” • Mechanism for Active Learning • Basis for many classroom technologies • Promotes: • Discussing/collaborating between students • Integrating student work into lectures Mazur, E. Peer Instruction: A User's Manual. Prentice-Hall, New Jersey, 1997.

  9. C Public Display A B D A A B Instructor Classroom Network Students Classroom Network 9

  10. Public Display Instructor Classroom Network Students Classroom Technology Cooperative Note-taking e.g. LiveNotes PowerPoint Slides Digital Whiteboards Digital Ink Presentation Tools Digital Whiteboards Classroom Response Systems Classroom Feedback Systems

  11. B Activity Activity Activity Activity Activity Activity Public Display Instructor Classroom Network Students Classroom Response System (CRS): Learning Cycle

  12. Multiple-Choice Example Clickers

  13. Multiple-Choice Example 2 Classtalk

  14. Textual Example 14

  15. Diagrammatic Example

  16. Diagrammatic Example

  17. Image Example

  18. Brainstorming Example

  19. What Activity Types are Best? • No quantitative studies showing digital ink makes for better activities in CRSs • Advantages of Digital Ink • Strictly more expressive • Some activities clearly easier with Digital Ink • Instructors like using these types of activities • Disadvantages of Digital Ink • Harder to aggregate/understand

  20. Part II: Systems • Tablet PC-based • Handhelds

  21. General Properties: Support many types of exercises Examples: Classroom Presenter Ubiquitous Presenter DyKnow GroupScribbles Tablet PC CRSs 21

  22. Classroom Presenter Devices: • Tablet PC • Laptop Activities: • Whole Slide, Ink/Text Features: • Anonymous Submissions • Push Model Limits: • Cost Anderson R. J., Anderson R., Simon B., Wolfman S. A., VanDeGrift T., Yasuhara K. “Experiences with a Tablet PC Based Lecture Presentation System in Computer Science Courses”. SIGCSE '04, pp. 56-60, 2004. Site: http://classroompresenter.cs.washington.edu

  23. Ubiquitous Presenter Devices: • Web-browser Activities: • Whole Slide, Text • Multiple-choice Features: • Same as Classroom Presenter Limits: • Requires Web Server Wilkerson M, Griswold W. G., Simon B. “Ubiquitous Presenter: Increasing Student Access and Control in a Digital Learning Environment”. SIGCSE ’05. 2005. Site: http://up.ucsd.edu/

  24. DyKnow Devices: • Tablet PC • Laptop Activities: • Whole Slide, Ink/Text • Multiple-choice Features: • Integrated System • Instructor Control • Pull Model Limits: • Cost DyKnow Website: http://www.dyknow.com

  25. GroupScribbles Devices: • Tablet PC • Laptop Activities: • Post-It Note, Ink/Text Features: • Multi-part Activities • Multiple Subs. • Editing/Moving Sub. Limits: • Cost Brecht J., DiGiano C., Patton C., Tatar D., Chaudhury R., Roschelle J., & Davis K. “Coordinating networked learning activities with a general-purpose Interface”. To appear in the International Review of Research in Open and Distance Learning.

  26. General Properties: Many types of small devices Activities more limited Examples: Clickers Classtalk Pebbles ActiveClass PLS TXT UR Thoughts Ubiquitous Presenter (Mobile) Handheld CRSs 26

  27. Clickers Devices: • Custom Activities: • Multiple-choice Features: • Small and Affordable • Scales to 100s Limits: • Limited Utility HW • Used for Wrong Reasons? Duncan D. “Clickers: A New Teaching Aid with Exceptional Promise”. Astronomy Education Review, 5(1), 2006.

  28. Classtalk Devices: • PDA • Calculator (TI-83) Activities: • Multiple-choice • Short Answer • Numeric Features: • Binning (All Responses) Limits: • PDA Cost/Popularity Dufresne R. J., Gerace W. J., Leonard W. J., Mestre J. P., Wenk L. “Classtalk: A Classroom Communication System for Active Learning”. Journal of Computing in Higher Education, 7, 3-47, (1996).

  29. Pebbles Devices: • PDA Activities: • Multiple-choice • Question Asking Features: • General Framework • PebblesDraw • Shared Whiteboard Limits: • PDA Cost/Popularity Myers B. A. “Using Hand-Held Devices and PCs Together”. Communications of the ACM. Volume 44, Issue 11. November, 2001. pp. 34 – 41.

  30. ActiveClass Devices: • PDA Activities: • Multiple-choice • Question Asking Features: • Voting on Questions • Results Always Avail. Limits: • PDA Cost/Popularity Ratto M., Shapiro R. B., Truong T. M., Griswold W. G. “The ActiveClass Project: Experiments in Encouraging Classroom Participation”. Computer Support for Collaborative Learning, 2003.

  31. PLS TXT UR Thoughts Devices: • Cell Phone Activities: • Question Asking Features: • SMS Communication • Anonymous Limits: • Recurring SMS Cost • SMS Length (160) Markett C., Sanchez I. A., Weber S., Tangney B. “Using short message service to encourage interactivity in the classroom”. Computers & Education, 46 280-293, 2006.

  32. Ubiquitous Presenter (mobile) Devices: • Cell Phone Activities: • Multiple-choice • Short Answer • Camera-based Features: • SMS  Abbreviations • Anonymous Limits: • Recurring SMS/MMS Cost Lindquist D., Denning T., Kelly M., Malani R., Griswold W. G., and Simon B. “Exploring the Potential of Mobile Phones for Active Learning in the Classroom”. SIGCSE ’07, March 2007.

  33. Summary of All Systems

  34. Summary of All Systems

  35. Part III: Future Work • Improve type of exercises on handhelds • Integrate diverse handhelds into class

  36. Increase Mobile Interaction Enabling Adoption? Integrate Existing Devices Digital Ink Expressiveness Multiple Choice $ $$$ Cost 36

  37. “Increasing Mobile Interaction” Understand types of activities How to do them on mobile devices “Using Existing Devices” Dealing with heterogeneous mix of devices Challenges 37

  38. Look at styles of activities supported on different devices esp. what interactions are needed Look at how well each device feature performs on these activity styles Explore techniques for making activity styles feasible on mobile devices and test Develop application that supports multiple device types Develop tool for designing activities to suit multiple devices – design activity once, translate to several devices Develop tool for taking responses of different forms and interpreting/aggregating them Steps to Tackle Challenges 38

  39. Step 1: Activity Styles Taxonomy What: • Activity Patterns: • Brecht et al., • DiGiano et al. • Classroom Presenter observations • Other Education Work • Focus on CRS activities • Hierarchical Taxonomy • Goal: Benchmark How: • Large Corpus of Activities • Compile Taxonomy Manually • Expand as needed

  40. Step 1: Potential Activity Styles • Locate Item On Image • Single/Multiple items? • Location? • Scale? • Boundaries? • Create a Diagram • Elements? • Labels? • Connectivity? • Modify/Complete a Diagram • Structure? • Labels? • Highlight a Diagram

  41. Step 2: Existing Techniques What: • Given device capabilities, quantize performance • Test feasibility of activity for each device • Use existing research where avail. • Text input speed on different devices • Pointing task research • Focus on diagrammatic/image responses How: • Literature review • Implement techniques • Lab studies to test performance on benchmarks

  42. Device Input Capabilities

  43. Device Screen Sizes 43

  44. Step 3: New Techniques What: • No adequate techniques? • Try to invent new ones How: • Identify gaps from prev. step • Examples: • Stylus drawing on small screen w/ large virtual canvas • Drawing arbitrary regions without stylus • Test performance using lab tests

  45. Step 3: Example Arbitrary Regions • Rubber-band?

  46. Step 4: Develop Application What: • Base on Classroom Presenter • Requirements: • Identify device type/capabilities • Screen size/resolution • Open platforms? Android? How: • Use existing standards: • Ubiquitous Presenter uses HTML and JavaScript • Wifi or SMS for networking • Support for: • Stylus Devices (Tablet PC, PDA, Smart Phone, Nintendo DS) • Touch Screen • Keypad • Success = deployment & support for devices

  47. Step 5: Instructor Design Tools What: • Consider classroom issues with different devices • Envy • Equality • Given benefits/drawbacks of different modalities, • Recommend alternative activity types? • Balance activity types given? How: • Tool Input • Instructor activity (PowerPoint?) • Activity metadata • Tool Internals • Determine activity type • Optimizes interaction for each device in class • Tool Output • Recommendations for activity types • Evaluate with user-study of tool

  48. Step 6: Instructor Class Usage What: • Use activity metadata • Use salient regions of responses • Understand and aggregate results • Finding common misconceptions How: • Unsupervised/semi-supervised clustering • Evaluation • Test data from real classes • Measure success on data • User-study to observe utility

  49. Step 6: Example Tic-Tac-Toe ? X, X, O O, O, X X, X, O ==

  50. Conclusions • Two Problems • Increasing Mobile Interaction • Using Existing Devices • Solution • Activities and devices • Tools: • Enable multiple devices • Help instructor • Goal • Make deploying CRSs a reality • Improve Education

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