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1. Embodied Learning in a Mixed-Reality Environment: Examination of Student Embodiment

   Kwon, Kyungbin; Kim, Keunjae; Seo, Minhwi; Kim, Hyojung; Brush, Thomas (March 2024, Association for the Advancement of Computing in Education (AACE))

   Cohen, J; Solano, G (Ed.)

   This study investigates the effects of embodied learning experiences in learning abstract concepts, such as computational thinking (CT), among young learners. Specifically, it examines whether the benefits of embodied learning can be replicated within a mixed-reality setting, where students engage with virtual objects to perform CT tasks. A group of ten first-grade students from an elementary school participated, engaging in embodied learning activities followed by assessments in CT. Through the analysis of video recordings, it was observed that participants could effectively articulate CT concepts, including the understanding of programming code meanings and their sequences, through their bodily movements. The congruence between students’ bodily movement and CT concepts was found to be advantageous for their comprehension. However, the study also noted instances of incongruent movements that did not align with the intended CT concepts, which attracted researchers’ attentions. The study identified two distinct types of embodiment manifested in the mixed-reality environment, shedding light on the nuanced dynamics of embodied learning in the context of CT education. 

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2. Closing the Skills Gap: Construction and Engineering Education Using Mixed Reality – A Case Study

   https://doi.org/10.1109/FIE.2018.8658992  

   Wu, Wei; Tesei, Aaron; Ayer, Steven; London, Jeremi; Luo, Yupeng; Gunji, Venkata (October 2018, 2018 IEEE Frontiers in Education Conference (FIE))

   This research work-in-progress paper investigated the application of emerging mixed reality (MR) technology in construction and engineering education. The construction industry is facing a severe shortage of skilled workforce. As the baby boomers are retiring, the younger generation, especially college students, are often criticized for their lack of professional experience and career-specific competency. To close the skills gap and accelerate the transition of college students to competent workforce, this paper proposed a new genre of learning and professional training using MR. The main promise of the MR technology resides in its ability to augment virtual contents on top of the physical reality to facilitate tacit knowledge learning, and simulate learning activities that traditionally can only be obtained from actual professional experience. An undergraduate wood framing lab was designed as a case study to explore how students might perform in this new learning and training environment. Specifically, the case study investigated if MR would facilitate student design comprehension and transfer such understanding into the knowledge and skills needed to build the wood structure. A randomly selected student control group was given traditional paper-based construction drawings to perform the same tasks with other student groups with various visualization technology assistance. Project performance and behavior of student groups were compared to determine if there was a significant difference between the control group and the experiment groups. A pair of pre- and post-survey on MR-intervened learning experience was also conducted to explore student perceptions towards this new genre of learning and training. The research design proposed in this work-in-progress study and its preliminary results could be a good reference and foundation to future research in this arena. 

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3. Expanding Opportunities for Systems Thinking, Conceptual Learning, and Participation through Embodied and Computational Modeling

   https://doi.org/10.3390/systems8040048  

   Pierson, Ashlyn E.; Brady, Corey E. (December 2020, Systems)

   Previous research has established that embodied modeling (role-playing agents in a system) can support learning about complexity. Separately, research has demonstrated that increasing the multimodal resources available to students can support sensemaking, particularly for students classified as English Learners. This study bridges these two bodies of research to consider how embodied models can strengthen an interconnected system of multimodal models created by a classroom. We explore how iteratively refining embodied modeling activities strengthened connections to other models, real-world phenomena, and multimodal representations. Through design-based research in a sixth grade classroom studying ecosystems, we refined embodied modeling activities initially conceived as supports for computational thinking and modeling. Across three iterative cycles, we illustrate how the conceptual and epistemic relationship between the computational and embodied model shifted, and we analyze how these shifts shaped opportunities for learning and participation by: (1) recognizing each student’s perspectives as critical for making sense of the model, (2) encouraging students to question and modify the “code” for the model, and (3) leveraging multimodal resources, including graphs, gestures, and student-generated language, for meaning-making. Through these shifts, the embodied model became a full-fledged component of the classroom’s model system and created more equitable opportunities for learning and participation. 

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4. Towards Embodied Wearable Intelligent Tutoring Systems

   Rasul, I. (April 2023, Lecture notes in computer science)

   Embodied cognition posits that human-environment interaction positively impacts thinking and learning, making it a valuable pedagogical tool. Technology in teaching and learning has seen tremendous maturation, such as the development of Intelligent Tutoring Systems (ITS). However, most ITS provide static learning experiences that do not incorporate embodiment, movement, and interaction with the space around the learner. This paper examines the results of using an embodied tutoring system across three case studies with different dimensions of embodiment. In all cases, we found trends highlighting how embodied tutoring systems can support learning. We also discuss different ways to incorporate embodiment into future research on ITS. 

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5. Towards Embodied Wearable Intelligent Tutoring Systems

   Rasul, I. (April 2023, Lecture notes in computer science)

   Frasson, C. (Ed.)

   Embodied cognition posits that human-environment interac- tion positively impacts thinking and learning, making it a valuable ped- agogical tool. Technology in teaching and learning has seen tremendous maturation, such as the development of Intelligent Tutoring Systems (ITS). However, most ITS provide static learning experiences that do not incorporate embodiment, movement, and interaction with the space around the learner. This paper examines the results of using an embod- ied tutoring system across three case studies with different dimensions of embodiment. In all cases, we found trends highlighting how embodied tutoring systems can support learning. We also discuss different ways to incorporate embodiment into future research on ITS. 

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