Instructional Technology Tetrahedron and Network Visualization: Conceptualizing Online Teaching Through a Lens of Reflective Noticing-Reference-Cited by-同舟云学术

Instructional Technology Tetrahedron and Network Visualization: Conceptualizing Online Teaching Through a Lens of Reflective Noticing

Published:2024-08-15 Issue: Volume: Page:
ISSN:2199-3246
Container-title:Digital Experiences in Mathematics Education
language:en
Short-container-title:Digit Exp Math Educ

Author:

Liu Jinqing^ORCID,Buchbinder Orly^ORCID

Abstract

AbstractOnline learning and teaching, accelerated by the global pandemic and rapid advancement of digital technology, require novel conceptual and analytical tools to understand better the evolving nature of online teaching. Drawing on the classical model of the instructional triangle and previous attempts to extend it, we propose the Instructional Technology Tetrahedron (ITT)—a conceptual framework that integrates technology into the instructional triangle to represent the role of technology, as a learning tool and a mediator between teachers, students, and content. Combining the ITT framework with network visualization strategies allowed for representing the intensity of interactions within the tetrahedron. We illustrate the affordances of the ITT framework by analyzing reflective noticing patterns of three prospective secondary teachers (PSTs) who reflected on the video recordings of their own online teaching, with each PST teaching four online lessons to groups of high-school students. We demonstrate the utility of the ITT framework to characterize individual noticing patterns, in a particular lesson and across time, and to support a variety of cross-case comparisons. The discussion sheds light on the broader implications of the ITT framework.

Publisher

Springer Science and Business Media LLC

Link

https://link.springer.com/content/pdf/10.1007/s40751-024-00151-y.pdf

Reference52 articles.

1. Blomberg, G., Renkl, A., Sherin, M., Borko, H., & Seidel, T. (2013). Five research-based heuristics for using video in pre-service teacher education. Journal for Educational Research Online, 5(1), 90–114.

2. Blömeke, S., & Kaiser, G. (2017). Understanding the development of teachers’ professional competencies as personally, situationally and socially determined. In D. Clandini & J. Husu (Eds.), International Handbook on Research on Teacher Education (pp. 783–802). Sage Publishing.

3. Borba, M., Souto, D., Cunha, J., & Domingues, N. (2024). Humans-with-media: Twenty-five years of a theoretical construct in mathematics education. In B. Pepin, G. Gueudet, & J. Choppin (Eds.), Handbook of digital resources in mathematics education (p. 26). Springer.

4. Borba, M. (2012). Humans-with-media and continuing education for mathematics teachers in online environments. ZDM: The International Journal on Mathematics Education, 44(801), 814.

5. Borba, M., & Villarreal, M. (2006). Humans-with-media and the reorganization of mathematical thinking: Information and communication technologies, modeling, visualization and experimentation. Springer.