K. K. Lamberty
Stephen Adams
ABSTRACT
Learners benefit from creating personally meaningful artifacts for an audience, especially when those artifacts embody the concepts that the learners aim to understand. Our past work examined artistic design as an anchor for mathematical discussions between learners as they explored concepts like symmetry and fractions. In this paper, we present the work from two field studies where we explored ways to expand opportunities for mathematical discussions with a larger audience (beyond learners seated next to each other) by incorporating structured ways to share finished and in-progress work on a large display that all participants could view peripherally. We observed that the large display provided support for sharing designs with children anywhere in the room. The large display increased the students' awareness of their peers' designs, and the displayed designs became an anchor for their discussions. More work remains to increase the frequency of discussions about mathematical aspects of their artifacts.
- C. Brodersen and O. S. Iversen. ecell: spatial it design for group collaboration in school environments. In Proc. GROUP '05, pages 227--235. ACM Press, 2005. Google Scholar
Digital Library
- A. Bruckman. Community support for constructionist learning. Computer Supported Cooperative Work, 7:47--86, January 1998. Google ScholarDigital Library
- S. Greenberg and M. Rounding. The notification collage: posting information to public and personal displays. In Proc. CHI '01, pages 514--521. ACM Press, 2001. Google ScholarDigital Library
- I. Harel. Children Designers: Interdisciplinary Constructions for Learning and Knowing Mathematics in a Computer-Rich School. Ablex Publishing Corporation, Norwood, NJ, 1991. Google ScholarDigital Library
- E. M. Huang and E. D. Mynatt. Semi-public displays for small, co-located groups. In Proc. CHI '03, pages 49--56. ACM Press, 2003. Google ScholarDigital Library
- E. M. Huang, E. D. Mynatt, D. M. Russell, and A. E. Sue. Secrets to success and fatal flaws: The design of large-display groupware. IEEE Comput. Graph. Appl., 26(1):37--45, 2006. Google ScholarDigital Library
- K. M. Inkpen, W. ling Ho-Ching, O. Kuederle, S. D. Scott, and G. B. D. Shoemaker. This is fun! We're all best friends and we're all playing: supporting children's synchronous collaboration. In Proc. CSCL '99, page 31. International Society of the Learning Sciences, 1999. Google ScholarDigital Library
- J. L. Kolodner, J. Gray, and B. B. Fasse. Promoting transfer through case-based reasoning: Rituals and practices in learning by design classrooms. Cognitive Science Quarterly, 3(2):119--170, 2003.Google Scholar
- K. K. Lamberty. Getting and keeping children engaged with a constructionist design tool for craft and math. PhD thesis, Georgia Institute of Technology, Atlanta, GA, USA, 2007. Adviser-Kolodner, Janet L. Google ScholarDigital Library
- K. K. Lamberty. Creating mathematical artifacts: extending children's engagement with math beyond the classroom. In Proc. IDC '08, pages 226--233, New York, NY, USA, 2008. ACM. Google ScholarDigital Library
- K. K. Lamberty, K. Froiland, J. Biatek, and S. Adams. Encouraging awareness of peers' learning activities using large displays in the periphery. In Proceedings of the 28th of the international conference extended abstracts on Human factors in computing systems, CHI EA '10, pages 3655--3660. ACM, 2010. Google ScholarDigital Library
- K. K. Lamberty and J. L. Kolodner. Exploring Digital Quilt Design Using Manipulatives as a Math Learning Tool. In Proc. Fifth International Conference of the Learning Sciences (ICLS), pages 552--553, Mahwah, NY, USA, 2002. Erlbaum.Google Scholar
- K. K. Lamberty and J. L. Kolodner. Towards a new kind of computational manipulative: children learning math and designing quilts with manipulatives that afford both. In Proc. IDC '04, pages 143--144. ACM, 2004. Google ScholarDigital Library
- K. K. Lamberty and J. L. Kolodner. Camera talk: making the camera a partial participant. In Proc. CHI '05, pages 839--848. ACM Press, 2005. Google ScholarDigital Library
- P. P. Maglio and C. S. Campbell. Tradeoffs in displaying peripheral information. In Proc. CHI '00, pages 241--248. ACM Press, 2000. Google ScholarDigital Library
- T. Moher, X. Ding, J. Wiley, S. Hussain, P. Singh, V. Srinivasan, and D. Conmy. Combining handhelds with a whole-class display to support the learning of scientific control. In Ext. Abstracts CHI '03, pages 882--883. ACM Press, 2003. Google ScholarDigital Library
- N. Moraveji, K. Inkpen, E. Cutrell, and R. Balakrishnan. A mischief of mice: examining children's performance in single display groupware systems with 1 to 32 mice. In Proc. CHI '09, pages 2157--2166. ACM Press, 2009. Google ScholarDigital Library
- E. Mynatt, E. Huang, S. Voida, and B. MacIntyre. Large displays for knowledge work. In K. OHara, M. Perry, E. Churchill, and D. Russell, editors, Public and situated displays, Dordrecht, The Netherlands, 2003. Kluwer Academic Publishers.Google Scholar
- S. Papert. Situating Constructionism., In I. Harel and S. Papert, editors, Constructionism pages 1--11. Ablex, Norwood, NJ, 1991.Google Scholar
- C. Plaue and J. Stasko. Animation in a peripheral display: distraction, appeal, and information conveyance in varying display configurations. In Proc. GI '07, pages 135--142. ACM, 2007. Google ScholarDigital Library
- Z. Pousman and J. Stasko. A taxonomy of ambient information systems: four patterns of design. In Proc. AVI '06, pages 67--74. ACM Press, 2006. Google ScholarDigital Library
- M. Resnick, A. Bruckman, and F. Martin. Pianos not stereos: creating computational construction kits. interactions, 3(5):40--50, 1996. Google ScholarDigital Library
- J. Rick and Y. Rogers. From digiquilt to digitile: Adapting educational technology to a multi-touch table. In Proc. TABLETOP '08, pages 79--86. IEEE, 2008.Google ScholarCross Ref
- J. Rick, Y. Rogers, C. Haig, and N. Yuill. Learning by doing with shareable interfaces. Children, Youth & Environments, 19(1):321--342, 2009.Google Scholar
- D. H. Schunk. Self-efficacy and education and instruction. In J. E. Maddux, editor, Self-efficacy, adaptation, and adjustment: Theory, research, and application, pages 281--303. New York: Plenum Press, 1995.Google Scholar
- D. W. Shaffer. Learning mathematics through design: The anatomy of Escher's world. Journal of Mathematical Behavior, 16(2):95--112, 1997.Google ScholarCross Ref
- D. Stanton, V. Bayon, H. Neale, A. Ghali, S. Benford, S. Cobb, R. Ingram, C. O'Malley, J. Wilson, and T. Pridmore. Classroom collaboration in the design of tangible interfaces for storytelling. In Proc. CHI '01, pages 482--489. ACM Press, 2001. Google ScholarDigital Library
- M. Stefik, D. G. Bobrow, G. Foster, S. Lanning, and D. Tatar. Wysiwis revised: early experiences with multiuser interfaces. ACM Trans. Inf. Syst., 5(2):147--167, 1987. Google ScholarDigital Library
- J. Stewart, B. B. Bederson, and A. Druin. Single display groupware: a model for co-present collaboration. In Proc. CHI '99, pages 286--293. ACM Press, 1999. Google ScholarDigital Library
Index Terms
- Using a large display in the periphery to support children learning through design
Recommendations
Encouraging awareness of peers' learning activities using large displays in the periphery
CHI EA '10: CHI '10 Extended Abstracts on Human Factors in Computing SystemsLearners benefit from creating personally meaningful artifacts for an audience, especially when those artifacts embody concepts the learners aim to understand. In this pilot study, we explored ways to expand opportunities for sharing mathematical ...
Tangible NURBS-curve manipulation techniques using graspable handles on a large display
UIST '04: Proceedings of the 17th annual ACM symposium on User interface software and technologyThis paper presents tangible interaction techniques for fine-tuning one-to-one scale NURBS curves on a large display for automotive design. We developed a new graspable handle with a transparent groove that allows designers to manipulate virtual curves ...
Tangible interaction in parent-child collaboration: encouraging awareness and reflection
IDC '18: Proceedings of the 17th ACM Conference on Interaction Design and ChildrenParent-child interaction during a collaborative activity can empower children if parents are able to envision their child's mental state and regulate their behavior. However, this ability is a great challenge for many parents. We designed a simple ...
Comments