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1. Scale Worlds: Iterative refinement, evaluation, and theory-usability balance of an immersive virtual learning environment

   https://doi.org/10.1177/21695067231192534  

   Wu, Linfeng; Sekelsky, Brian; Peterson, Matthew; Gampp, Tyler; Delgado, Cesar; Chen, Karen B (September 2023, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Feedback-based iterative refinement is important in the development of any human-computer interface. The present work aims to evaluate and iteratively refine an immersive learning environment called Scale Worlds (SW), delivered via a head-mounted display (HMD). SW is a virtual learning environment encompassing scientific entities of a wide range of sizes that enables students an embodied experience while learning size and scale. Five usability experts performed think aloud while carrying out four interactive tasks in SW and compared three different design options during A/B testing. Improvement features based on the feedback from an earlier SW usability evaluation as well as HMD-specific features were examined. Usability experts completed the post-study system usability questionnaire, the NASA task load index, and a bipolar laddering survey that collected subjective perception of specific SW features. Results show that the progress panel (an improvement feature) was informative while the instructions (another improvement feature) caused clutter. The experts indicated clear usability preferences during A/B testing, which helped resolve three sets of theory-usability conflicts. The overall assessment of SW paved a path for theory-usability balance and provided valuable insights for designing and evaluating usability in immersive virtual learning environments. 

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2. Shrink or grow the kids? Scale cognition in an immersive virtual environment for K-12 summer camp

   https://doi.org/10.1109/VRW58643.2023.00203  

   Wu, Linfeng; Chen, Karen B.; Sekelsky, Brian; Peterson, Matthew; Harper-Gampp, Tyler; Delgado, Cesar (March 2023, 2023 IEEE Conference on Virtual Reality and 3D User Interfaces Abstracts and Workshops (VRW))

   Virtual reality (VR) has been widely used for education and affords embodied learning experiences. Here we describe: Scale Worlds (SW), an immersive virtual environment to allow users to shrink or grow by powers of ten (10X) and experience entities from molecular to astronomical levels; and students’ impressions and outcomes from experiencing SW in a CAVE (Figure 1) during experiential summer outreach sessions. Data collected from post-visit surveys of 69 students, and field observations, revealed that VR technologies: enabled interactive learning experiences; encouraged active engagement and discussions among participating students; enhanced the understanding of size and scale; and increased interest in STEM careers. 

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3. Learning Scale in Virtual Reality: Experiences and Perception of Immersive Technology at a Public Middle School

   https://doi.org/10.1177/10711813241265650  

   Chen, Karen B; Harper-Gampp, Tyler; Wu, Linfeng; Delgado, Cesar; Peterson, Matthew (September 2024, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Students have misconceptions of size and scale cognition as they confuse molecules and cells. The team deployed a virtual reality (VR) learning tool, namely Scale Worlds, for K-12 students to use at school. The present work aimed to examine the experience and perception of immersive technology, and logistical challenges of integrating Scale Worlds into a science class. Ten students and three teachers were included in this study with informed consent. Scale Worlds was introduced as part of a science class and then semi-structured interview was conducted. Students’ experience with VR technology included physiological discomfort, psychological nervousness and uncertainty of technology, personal abilities and unfamiliarity, and hardware latency. However, students perceived Scale Worlds to be a useful tool that helped them visualize entities of different sizes, and allowed them to work collaboratively. Teachers expressed desire for more exciting content in Scale Worlds and further usability enhancement, as well as need for additional material preparation time. The team planned to return to the same middle school for another round of in-field study after addressing some of the reported challenges. 

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4. Study of Graphic Armatures, Multimodal Cues, and Numeric Measures in Virtual Reality on Learners’ Performance and Workload

   https://doi.org/10.1177/10711813241269236  

   Cheng, Fangyuan; Harper-Gampp, Tyler; Planchart, Rebecca; Dunning, Mitchell; Peterson, Matthew; Delgado, Cesar; Chen, Karen_B (October 2024, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Virtual reality (VR) is increasingly utilized in education, yet its effectiveness can vary due to potential distractions and excessive workload. Prior research suggests that virtual signaling elements can enhance learning in VR environments. However, the effectiveness of different design elements for specific learning content and their impact on learner workload remain understudied. This study examines the influence of graphic armatures, multimodal cues, and numeric measures on scale learning in Scale Worlds, a VR learning environment for exploring scientific entities across multiple scales. Preliminary results indicate that numeric measures notably enhance learning outcomes by providing direct scale representations. It shows that different virtual elements can variably affect learners’ scale learning outcomes and behaviors and can lead to varying levels of workload. This study underscores the importance of aligning the design of virtual elements with educational objectives and ensuring they induce an appropriate level of workload for learning in VR learning environment. 

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5. A Virtual Learning Factory for Advanced Manufacturing

   Aqlan, Faisal; Zhao, Richard; Yang, Hui; Ramakrishnan, Sreekanth (December 2021, Proceedings of the Winter Simulation Conference)

   null (Ed.)

   Virtual reality (VR) technology allows for the creation of fully immersive environments that enable personalized manufacturing learning. This case study discusses the development of a virtual learning factory that integrates manual and automated manufacturing processes such as welding, fastening, 3D printing, painting, and automated assembly. Two versions of the virtual factory are developed: (1) a multiplayer VR environment for the design and assembly of car toys; which allows for the collaboration of multiple users in the same VR environment, and (2) a virtual plant that utilizes heavy machinery and automated assembly lines for car manufacturing. The virtual factory also includes an intelligent avatar that can interact with the users and guide them to the different sections of the plant. The virtual factory enhances the learning of advanced manufacturing concepts by combining virtual objects with hands-on activities and providing students with an engaging learning experience. 

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