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1. Explorations of Designing Spatial Classroom Analytics with Virtual Prototyping

   https://doi.org/10.1145/3448139.3448192  

   Jang, JiWoong; Lee, Jaewook; Echeverria, Vanessa; Lawrence, LuEttaMae; Aleven, Vincent (April 2021, Proceedings of the 11th International Learning Analytics & Knowledge Conference (LAK21))

   null (Ed.)

   Despite the potential of spatial displays for supporting teachers’ classroom orchestration through real-time classroom analytics, the process to design these displays is a challenging and under-explored topic in the learning analytics (LA) community. This paper proposes a mid-fidelity Virtual Prototyping method (VPM), which involves simulating a classroom environment and candidate designs in virtual space to address these challenges. VPM allows for rapid prototyping of spatial features, requires no specialized hardware, and enables teams to conduct remote evaluation sessions. We report observations and findings from an initial exploration with five potential users through a design process utilizing VPM to validate designs for an AR-based spatial display in the context of middle-school orchestration tools. We found that designs created using virtual prototyping sufficiently conveyed a sense of three-dimensionality to address subtle design issues like occlusion and depth perception. We discuss the opportunities and limitations of applying virtual prototyping, particularly its potential to allow for more robust co-design with stakeholders earlier in the design process. 

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2. Youth Identity Enactments through Storytelling during Co-design of an Educational Virtual Game World

   https://doi.org/10.22318/icls2024.703626  

   Radke, Sarah C; Hardy, Lisa; Kahn, Jennifer B (June 2024, Proceedings of the 18th International Conference of the Learning Sciences - ICLS 2024)

   Lindgren, R; Asino, T I; Kyza, E A; Looi, C K; Keifert, D T; Suárez, E (Ed.)

   This paper examines youth storytelling during co-design of an identity-expressive educational game for learning data science. Using interaction analysis of co-design interviews with middle school students, we explore how storytelling allows participants to (a) use existing game elements to position themselves and (b) express their interests and identities through imagined game futures. We argue that analyzing youth's interactive storytelling and identity enactments during co-design can inform the development of game narratives that represent diverse youth. Our findings contribute to the design of inclusive virtual worlds for STEM learning that celebrate youth identities and experiences. We discuss implications for engaging youth voices in the co-design process and creating educational games that resonate with diverse learners. 

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3. Engaging Youth as Game Designers Through Storytelling

   https://doi.org/10.3102/2110582  

   Radke, Sarah; Kahn, Jennifer; Hardy, Lisa (January 2024, AERA Online Paper Repository)

   This paper investigates storytelling as an approach to co-design research with diverse middle school-aged youth. Using microanalytic methods of interaction analysis (Jordan & Henderson, 1995) and positioning theory (Goffman, 1981) to analyze data from online play-testing and co-design sessions with youth, the paper explores how storytelling enabled youth to navigate and shift between the dual roles of game player and designer, (re)configuring elements of the existing game and incorporating their own stories. This paper advocates for the inclusion of storytelling as a fruitful co-design method in the creation of identity-aligned gaming experiences and more immersive and inclusive virtual worlds. 

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4. Physical Computing with Paper Playground: Exploring a Multimodal Platform

   https://doi.org/10.1145/3689050.3705981  

   Ranjan, Krithik; Eisenberg, Ann; Fiedler, Brett L; Greenberg, Jesse; Smith, Taliesin L; Moore, Emily B (March 2025, ACM)

   Physical computing enables learners to create interactive projects using tangible materials and electronic components. These projects commonly utilize microcontroller boards like the micro:bit. In contrast, computer vision (CV) is a powerful technique for detecting input through interaction with everyday materials like paper, and it can be utilized for physical computing projects. However, CV-based toolkits are typically limited to input detection and rely on screen-based or projected outputs. This paper presents a hybrid approach that integrates a CV-based platform called Paper Playground with the micro:bit electronics platform. By combining CV-detected, paper-based inputs with the rich input-output possibilities of microcontroller-based systems, we showcase a multimodal physical computing toolkit. Through three project examples, we explore how this hybrid approach can enhance the creative possibilities in physical computing, and develop a preliminary design space combining CV-based and electronics-based physical computing. 

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5. StoryMakAR: Bringing Stories to Life With An Augmented Reality & Physical Prototyping Toolkit for Youth

   https://doi.org/10.1145/3313831.3376790  

   Glenn, Terrell; Ipsita, Ananya; Carithers, Caleb; Peppler, Kylie; Ramani, Karthik (April 2020, Proceedings of the 2020 CHI Conference on Human Factors in Computing Systems)

   null (Ed.)

   Makerspaces can support educational experiences in prototyping for children. Storytelling platforms enable high levels of creativity and expression, but have high barriers of entry. We introduce StoryMakAR, which combines making and storytelling. StoryMakAR is a new AR-IoT system for children that uses block programming, physical prototyping, and event-based storytelling to bring stories to life. We reduce the barriers to entry for youth (Age=14-18) by designing an accessible, plug-and-play system through merging both electro-mechanical devices and virtual characters to create stories. We describe our initial design process, the evolution and workflow of StoryMakAR, and results from multiple single-session workshops with 33 high school students. Our preliminary studies led us to understand what students want to make. We provide evidence of how students both engage and have difficulties with maker-based storytelling. We also discuss the potential for StoryMakAR to be used as a learning environment for classrooms and younger students. 

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