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1. A Low-Cost Wireless System Implementation for Interactive and Immersive Teaching

   https://doi.org/10.1145/3209582.3225208  

   Weng, Minghui; Kong, Xiangqi; Huang, Lianfen; Li, Bin (June 2018, Mobihoc '18 Proceedings of the Eighteenth ACM International Symposium on Mobile Ad Hoc Networking and Computing)

   In recent years, virtual/augmented reality (VR/AR) technology has received great attention due to its capability of creating various levels of immersive experiences. However, current wireless VR/AR devices are quite expensive, which hinders its large-scale deployment in practice. In this demo, we present a wireless interactive VR/AR teaching system based on popular Android phones. In such a demo, when a teacher explains a 3D model, multiple students can see it from exactly the same perspective as the teacher does through VR/AR glasses. When one student has a concern or question regarding a particular part of the 3D model, he/she can point it out, and a corresponding blue cursor will appear on screens of all users. Moreover, in the absence of 3D models in Android phones, we broadcast 3D models based on their visual priorities. 

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2. Evaluating Layout Dimensionalities in PC+VR Asymmetric Collaborative Decision Making

   https://doi.org/10.1145/3698130  

   Enriquez, Daniel; Tong, Wai; North, Chris; Qu, Huamin; Yang, Yalong (October 2024, Proceedings of the ACM on Human-Computer Interaction)

   With the commercialization of virtual/augmented reality (VR/AR) devices, there is an increasing interest in combining immersive and non-immersive devices (e.g., desktop computers) for asymmetric collaborations. While such asymmetric settings have been examined in social platforms, significant questions around layout dimensionality in data-driven decision-making remain underexplored. A crucial inquiry arises: although presenting a consistent 3D virtual world on both immersive and non-immersive platforms has been a common practice in social applications, does the same guideline apply to lay out data? Or should data placement be optimized locally according to each device's display capacity? This study aims to provide empirical insights into the user experience of asymmetric collaboration in data-driven decision-making. We tested practical dimensionality combinations between PC and VR, resulting in three conditions: PC2D+VR2D, PC2D+VR3D, and PC3D+VR3D. The results revealed a preference for PC2D+VR3D, and PC2D+VR2D led to the quickest task completion. Our investigation facilitates an in-depth discussion of the trade-offs associated with different layout dimensionalities in asymmetric collaborations. 

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3. 2021 ASEE Virtual Annual Conference Content Access

   Bhattarai, B. (July 2021, Poster: Use of Augmented Reality (AR) and Virtual Reality(VR) to tackle 4 amongst the ”14 Grand Challenges for Engineering in the 21st Century” identified by National Academy of Engineering)

   This poster presents the use of Augmented Reality (AR) and Virtual Reality (VR) to tackle 4 amongst the “14 Grand Challenges for Engineering in the 21st Century” identified by National Academy of Engineering. AR and VR are the technologies of the present and the future. AR creates a composite view by adding digital content to a real world view, often by using the camera of a smartphone and VR creates an immersive view where the user’s view is often cut off from the real world. The 14 challenges identify areas of science and technology that are achievable and sustainable to assist people and the planet to prosper. The 4 challenges tackled using AR/VR application in this poster are: Enhance virtual reality, Advance personalized learning, Provide access to clean water, and Make solar energy affordable. The solar system VR application is aimed at tackling two of the engineering challenges: (1) Enhance virtual reality and (2) Advance personalized learning. The VR application assists the user in visualizing and understanding our solar system by using a VR headset. It includes an immersive 360 degree view of our solar system where the user can use controllers to interact with celestial bodies-related information and to teleport to different points in the space to have a closer look at the planets and the Sun. The user has six degrees of freedom. The AR application for water tackles the engineering challenge: “Provide access to clean water”. The AR water application shows information on drinking water accessibility and the eco-friendly usage of bottles over plastic cups within the department buildings inside Auburn University. The user of the application has an augmented view of drinking water information on a smartphone. Every time the user points the smartphone camera towards a building, the application will render a composite view with drinking water information associated to the building. The Sun path visualization AR application tackles the engineering challenge: “Make solar energy affordable”. The application helps the user visualize sun path at a selected time and location. The sun path is augmented in the camera view of the device when the user points the camera towards the sky. The application provides information on sun altitude and azimuth. Also, it provides the user with sunrise and sunset data for a selected day. The information provided by the application can aid the user with effective solar panel placement. Using AR and VR technology to tackle these challenges enhances the user experience. The information from these applications are better curated and easily visualized, thus readily understandable by the end user. Therefore, usage of AR and VR technology to tackle these type of engineering challenges looks promising. 

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4. Color-Perception-Guided Display Power Reduction for Virtual Reality

   https://doi.org/10.1145/3550454.3555473  

   Duinkharjav, Budmonde; Chen, Kenneth; Tyagi, Abhishek; He, Jiayi; Zhu, Yuhao; Sun, Qi (December 2022, ACM Transactions on Graphics)

   Battery life is an increasingly urgent challenge for today's untethered VR and AR devices. However, the power efficiency of head-mounted displays is naturally at odds with growing computational requirements driven by better resolution, refresh rate, and dynamic ranges, all of which reduce the sustained usage time of untethered AR/VR devices. For instance, the Oculus Quest 2, under a fully-charged battery, can sustain only 2 to 3 hours of operation time. Prior display power reduction techniques mostly target smartphone displays. Directly applying smartphone display power reduction techniques, however, degrades the visual perception in AR/VR with noticeable artifacts. For instance, the "power-saving mode" on smartphones uniformly lowers the pixel luminance across the display and, as a result, presents an overall darkened visual perception to users if directly applied to VR content. Our key insight is that VR display power reduction must be cognizant of the gaze-contingent nature of high field-of-view VR displays. To that end, we present a gaze-contingent system that, without degrading luminance, minimizes the display power consumption while preserving high visual fidelity when users actively view immersive video sequences. This is enabled by constructing 1) a gaze-contingent color discrimination model through psychophysical studies, and 2) a display power model (with respect to pixel color) through real-device measurements. Critically, due to the careful design decisions made in constructing the two models, our algorithm is cast as a constrained optimization problem with a closed-form solution, which can be implemented as a real-time, image-space shader. We evaluate our system using a series of psychophysical studies and large-scale analyses on natural images. Experiment results show that our system reduces the display power by as much as 24% (14% on average) with little to no perceptual fidelity degradation. 

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5. I Did Not Notice: A Comparison of Immersive Analytics with Augmented and Virtual Reality

   https://doi.org/10.1145/3613905.3651085  

   Zhou, Xiaoyan; Batmaz, Anil Ufuk; Williams, Adam Sinclair; Schreiber, Dylan; Ortega, Francisco Raul (May 2024, In Extended Abstracts of the CHI Conference on Human Factors in Computing Systems (CHI EA ’24))

   Immersive environments enable users to engage in embodied interaction, enhancing the sensemaking processes involved in completing tasks such as immersive analytics. Previous comparative studies on immersive analytics using augmented and virtual realities have revealed that users employ different strategies for data interpretation and text-based analytics depending on the environment. Our study seeks to investigate how augmented and virtual reality influences sensemaking processes in quantitative immersive analytics. Our results, derived from a diverse group of participants, indicate that users demonstrate comparable performance in both environments. However, it was observed that users exhibit a higher tolerance for cognitive load in VR and travel further in AR. Based on our findings, we recommend providing users with the option to switch between AR and VR, thereby enabling them to select an environment that aligns with their preferences and task requirements. 

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