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Design and Implementation of Immersive Representations of Practice

Sponsor: Kent State University

Karl Kosko [email protected] (Principal Investigator)
Richard Ferdig (Co-Principal Investigator)
Cheng-Chang Lu (Co-Principal Investigator)


Various researchers have documented that a large proportion of preservice teachers (PSTs) demonstrate less sophisticated professional knowledge for teaching both fractions and multiplication/division. Use of representations of practice (i.e., video, animation), and accompanying annotation technology, are effective in improving such professional knowledge, but PSTs continue to demonstrate a lack of precision in attending to or noticing particular mathematics in classroom scenarios. Fortunately, a new technology, 360-degree video, has emerged as a means of training novices for professional practice. This project will address the potential positive and negative impacts of using 360-degree video for bridging the gap between theory and practice in mathematics instruction. Specifically, PSTs demonstrate difficulty in synthesizing explicit knowledge learned in the college classroom with tacit professional knowledge situated in professional practice. The initial pilot of the technology resulted in PSTs demonstrating specific attention to the mathematics. The purpose of the project will be to investigate how PSTs’ tacit and explicit professional knowledge are facilitated using immersive video technology and annotations (technologically embedded scaffolds). To do this, the project will examine where and what PSTs attend to when viewing 360-degree videos, both at a single point in the classroom and through incorporating multiple camera-perspectives in the same class. Additionally, the project will examine the role of annotation technology as applied to 360-degree video and the potential for variations in annotation technology. Findings will allow for an improved understanding of how teacher educators may support PSTs’ tacit and explicit knowledge for teaching. The project will make video experiences publicly available and the platform used in the project to create these video experiences for teacher educators to use, create, and share 360-degree video experiences.

The project will examine how representations of practice can facilitate preservice teachers’ professional knowledge for teaching fractions and multiplication/division. The project will: examine the effect of single versus multiple perspective in PSTs’ professional knowledge; examine how PSTs use annotation technology in immersive video experiences, and its effect on PSTs’ professional knowledge for teaching fractions and multiplication/division; and design a platform for teacher educators to create their own 360 video immersive experiences. Using an iterative design study process, the project team will develop and pilot single and multi-perspective 360-degree video experiences in grade 3-5 classrooms including developing a computer program to join multiple 360-degree videos. They will also develop an annotation tool to allow PSTs to annotate the single and multi-perspective 360 video experiences. Using a convergent mixed methods design, the project team will analyze the quantitative data using multiple regressions of pre-post data on mathematical knowledge for teaching and survey data on PSTs reported immersion and presence in viewing the videos to compare single and multi-perspective 360-degree video data. They will also qualitatively analyze heat maps generated from eye tracking, written responses from PSTs’ noticing prompts, and field notes from implementation to examine the effect of single versus multiple perspectives. The team will use similar methods to examine how PSTs use the annotation technology and its effect. The results of the research and the platform will be widely disseminated.

The Discovery Research preK-12 program (DRK-12) seeks to significantly enhance the learning and teaching of science, technology, engineering and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models and tools. Projects in the DRK-12 program build on fundamental research in STEM education and prior research and development efforts that provide theoretical and empirical justification for proposed projects.

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