Open this publication in new window or tab >>2021 (English)In: 7th International Designs for Learning conference - Remediation of Learning: Book of Abstracts, Stockholm: Stockholm University Press, 2021, p. 59-60Conference paper, Oral presentation with published abstract (Other academic)
Abstract [en]
Current research indicates that teachers’ and students’ use of technology influence each other, especially relating to the ideas of learning-design and co-construction (here co-design) of classroom practice (Bezemer & Kress, 2016; Lim, 2021). However, previous research on teachers’ use has overtly emphasized different pedagogical aspects of technology use in teaching (Lai & Bower, 2019). There is a lack of studying teachers' meaning-making (actions and sign-making, Kress, 2010; Wartofsky, 1979) through technology use that is essential for understanding the reciprocal relationship between prompters in shared design of classroom practice between teacher and student (Bezemer et al., 2016). This paper aims to explore how teachers make meanings in technology use from a multimodal layer (ML) approach (Schnaider, Gu & Rantatalo, 2020) by focusing on questions: How do teachers use configurations of hardware and software? What are the outcomes of technology use in the framing of different learning-design activities?
Data was collected and analysed based on the five ML components i.e., technologies (hardware/software), functional properties, semiotic properties, modes of representation, and activities (ibid.). The data consisted of video recordings, interviews, and observation notes. All data were transcribed or annotated into texts and segmented into sentences (lines/stanzas) based on how they framed MLs’ categories (Shaffer, 2017). Quantitative content analysis (Bell, 2011) was conducted first by using nCoder to strengthen interrater-reliability and validity in the MLs’ categories (the codes), and then by using the Epistemic Network Analysis program (Shaffer, 2014) to visualize the connections between the different categories in graphs for interpretation of variations and overlaps.
The findings show that teachers’ technology use is often undertaken with emphasis on some of the MLs. For instance, in activities, teachers tend to use technologies mainly for distribution purposes, which have little or no connection to learning-design or co-design. Moreover, teachers’ meaningmaking through technology use is often linked to levels of mediation in actions such as work in handling functional properties in modes of representation speech and gestures, and therefore, limitedly related to sign-making by using the technologies’ semiotic properties. On the other hand, design for collaboration was undertaken between actors in the use of smartphones and projectors in brainstorming and reviewing new subject areas, where functional and semiotic properties were used to arrange and superimpose content in verbal communication and writing activities.
This study provides some insights for an overall understanding of how technologies are used in the classroom by teachers. When the MLs are recognized and realized, it enables successful learningdesign and informs co-design that benefit students’ use of technologies in learning. Moreover, a shared use by teachers and students contributes to greater insights into how their meaning-making is undertaken separately and overlap. If teachers and students jointly design the learning environment 60through knowledge of ML, a variety of different technologies will be implemented more naturally and effectively.
Place, publisher, year, edition, pages
Stockholm: Stockholm University Press, 2021
Keywords
Multimodal, Multimodal layers, Technology use, Teacher, Meaning-making, Learningdesign, Co-design
National Category
Pedagogy
Research subject
education
Identifiers
urn:nbn:se:umu:diva-187122 (URN)
Conference
7th International Designs for Learning conference - Remediation of Learning, Online, May 25-26, 2021.
Projects
lict
2021-09-022021-09-022021-09-02Bibliographically approved