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1. Augmented Reality for Scholarly Publication of 3D Visualizations in Astronomy: An Empirical Evaluation

   https://doi.org/10.31219/osf.io/93brd  

   Adams, Jane L; South, Laura; Çöltekin, Arzu; Goodman, Alyssa; Borkin, Michelle (August 2023, IEEE/OSF Preprints)

   We present a mixed methods user study evaluating augmented reality (AR) as a visualization technique for use in astronomy journal publications. This work is motivated by the highly spatial nature of scientific visualizations employed in astronomy, including spatial reasoning tasks for hypothesis generation and scientific communications. In this 52-person user study, we evaluate two AR approaches (one traditional tabletop projection and the other with a 'tangible' aid) as spatial 3D visualization techniques, as compared to a baseline 3D rendering on a phone. We identify a significant difference in mental and physical workload between the two AR conditions in men and women. Qualitatively, through thematic coding of interviews, we identify notable observed differences ranging from device-specific physical challenges, to subdomain-specific utility within astronomy. The confluence of quantitative and qualitative results suggest a tension between workload and engagement when comparing non-AR and AR technologies. We summarize these findings and contribute them for reference in data visualization research furthering novel scientific communications in astronomy journal publications. 

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2. Boxcars on Potatoes: Exploring the Design Language for Tangible Visualizations of Scalar Data Fields on 3D Surfaces

   Herman, Bridger; Keefe, Daniel F. (October 2018, Proceedings of the IEEE VIS 2018 Workshop: Toward a Design Language for Data Physicalization)

   We present a design-based exploration of the potential to reinterpret glyph-based visualization of scalar fields on 3D surfaces, a traditional scientific visualization technique, as a data physicalization technique. Even with the best virtual reality displays, users often struggle to correctly interpret spatial relationships in 3D datasets; thus, we are motivated to understand the extent to which traditional scientific visualization methods can translate to physical media where users may simultaneously leverage their visual systems and tactile senses to, in theory, better understand and connect with the data of interest. This pictorial traces the process of our design for a specific user study experiment: (1) inspiration, (2) exploring the data physicalization design space, (3) prototyping with 3D printing, (4) applying the techniques to different synthetic datasets. We call our most recent and compelling visual/tactile design boxcars on potatoes, and the next step in the research is to run a user-based evaluation to elucidate how this design compares to several of the others pictured here. 

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3. An Augmented Reality Application and User Study for Understanding and Learning Architectural Representations

   https://doi.org/10.1109/VRW58643.2023.00241  

   Ashour, Ziad; Shaghaghian, Zohreh; Yan, Wei (March 2023, 2023 IEEE Conference on Virtual Reality and 3D User Interfaces Abstracts and Workshops (VRW))

   Advances in computational technology provide opportunities to explore new methods to improve spatial abilities and the understanding of buildings in architecture education. The research employed BIMxAR, a Building Information Modeling-enabled AR educational tool with novel visualization features to support learning and understanding construction systems, materials configuration, and 3D section views of complex building structures. We validated the research through a test case based on a quasi-experimental research design, in which BIMxAR was used as an intervention. Two study groups were employed - non-AR and AR. The learning gain differences within and between the groups were not statistically significant, however, the AR group perceived significantly less workload and higher performance compared to the non-AR group. These findings suggest that the AR version is an easy, useful, and convenient learning tool. 

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4. Hyperion: A 3D Visualization Platform for Optical Design of Folded Systems

   Nikolov, Daniel K; Ye, Sifan; Dlhopolsky, Sydney; Bai, Zhen; Zhu, Yuhao; and Rolland, Jannick P. (January 2020, Frameless Symposium)

   Hyperion is a 3D visualization platform for optical design. It provides a fully immersive, intuitive, and interactive 3D user experience by leveraging existing AR/VR technologies. It enables the visualization of models of folded freeform optical systems in a dynamic 3D environment. The frontend user experience is supported by the computational ray-tracing engine of Eikonal+, an optical design research software currently being developed. We have built a cross-platform light-weight version of Eikonal+ that can communicate with any user interface or other scientific software. We have also demonstrated a prototype of the Hyperion 3D user experience using a Hololens AR display. 

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5. Multi-Touch Querying on Data Physicalizations in Immersive AR

   https://doi.org/10.1145/3488542  

   Herman, Bridger; Omdal, Maxwell; Zeller, Stephanie; Richter, Clara A.; Samsel, Francesca; Abram, Greg; Keefe, Daniel F. (November 2021, Proceedings of the ACM on Human-Computer Interaction)

   Data physicalizations (3D printed terrain models, anatomical scans, or even abstract data) can naturally engage both the visual and haptic senses in ways that are difficult or impossible to do with traditional planar touch screens and even immersive digital displays. Yet, the rigid 3D physicalizations produced with today's most common 3D printers are fundamentally limited for data exploration and querying tasks that require dynamic input (e.g., touch sensing) and output (e.g., animation), functions that are easily handled with digital displays. We introduce a novel style of hybrid virtual + physical visualization designed specifically to support interactive data exploration tasks. Working toward a "best of both worlds" solution, our approach fuses immersive AR, physical 3D data printouts, and touch sensing through the physicalization. We demonstrate that this solution can support three of the most common spatial data querying interactions used in scientific visualization (streamline seeding, dynamic cutting places, and world-in-miniature visualization). Finally, we present quantitative performance data and describe a first application to exploratory visualization of an actively studied supercomputer climate simulation data with feedback from domain scientists. 

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