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1. Representing Real-Time Multi-User Collaboration in Visualizations

   Neogy, Rupayan; Zong, Jonathan; Satyanarayan, Arvind. (October 2020, IEEE Visualization (VIS) Conference)

   null (Ed.)

   Establishing common ground and maintaining shared awareness amongst participants is a key challenge in collaborative visualization. For real-time collaboration, existing work has primarily focused on synchronizing constituent visualizations - an approach that makes it difficult for users to work independently, or selectively attend to their collaborators' activity. To address this gap, we introduce a design space for representing synchronous multi-user collaboration in visualizations defined by two orthogonal axes: situatedness, or whether collaborators' interactions are overlaid on or shown outside of a user's view, and specificity, or whether collaborators are depicted through abstract, generic representations or through specific means customized for the given visualization. We populate this design space with a variety of examples including generic and custom synchronized cursors, and user legends that collect these cursors together or reproduce collaborators' views as thumbnails. To build common ground, users can interact with these representations by peeking to take a quick look at a collaborator's view, tracking to follow along with a collaborator in real-time, and forking to independently explore the visualization based on a collaborator's work. We present a reference implementation of a wrapper library that converts interactive Vega-Lite charts into collaborative visualizations. We find that our approach affords synchronous collaboration across an expressive range of visual designs and interaction techniques. 

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2. GazeXR: A generally eye-tracking system enabling invariable gaze data in virtual environment

   https://doi.org/10.1007/978-3-030-77599-5_4  

   Lenart, C. (January 2021, Virtual, augmented and mixed reality)

   J. Y. C., Chen (Ed.)

   Controlling and standardizing experiments is imperative for quantitative research methods. With the increase in the availability and quantity of low-cost eye-tracking devices, gaze data are considered as an important user input for quantitative analysis in many social science research areas, especially incorporating with virtual reality (VR) and augmented reality (AR) technologies. This poses new challenges in providing a default interface for gaze data in a common method. This paper propose GazeXR, which focuses on designing a general eye-tracking system interfacing two eye-tracking devices and creating a hardware independent virtual environment. We apply GazeXR to the in-class teaching experience analysis use case using external eye-tracking hardware to collect the gaze data for the gaze track analysis. 

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3. EyeDraw: Investigating the Perceived Effects of Shared Gaze on Remote Collaborative Drawing

   https://doi.org/10.1145/3701196  

   Ma, Eryn; Dixit, Priya; Han, Andy; Marsano, Nicholas; Sparks, Brooke; Sun, Ashley; Tiangco, Lucas; Zhou, Tongyu; Huang, Jeff; Papoutsaki, Alexandra (January 2025, Proceedings of the ACM on Human-Computer Interaction)

   Shared gaze, where collaborators can see each other's point of gaze visualized on their screen in real time, is a novel non-verbal mechanism that augments remote collaborations and increases shared awareness and common grounding. While past studies have focused on well-structured tasks and analyzed task performance and efficiency, our study explores the domain of collaborative drawing for recreational purposes and focuses on collaborators' own perceptions. We surveyed 75 users of online collaborative drawing platforms who mostly drew collaboratively for recreation and artistic growth; they reported the importance of communication but also of retaining individual space despite the collaborative setting. Informed by this and prior research on shared gaze, we evaluate collaboration by allowing two collaborators to draw synchronously on a shared canvas and share their point of gaze. We conducted a study with 24 pairs that drew collaboratively under all combinations of shared gaze and voice communication. Combining voice and shared gaze was perceived to reach the best balance between tightly coupled collaboration and parallel individual execution. Shared gaze led to higher spatial awareness and less turn-taking was observed in conditions that shared gaze was present. Surprisingly, many participants found the lack of any communication medium to afford the highest degree of divergent thinking. Our findings provide guidelines for adaptive tools that consider individual preferences as well as the nature of the task to better support remote collaborations that are open-ended and prize creativity. 

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4. Trade-offs in Augmented Reality User Interfaces for Controlling a Smart Environment

   https://doi.org/10.1145/3485279.3485288  

   Flick, Connor Daniel; Harris, Courtney J; Yonkers, Nikolas T; Norouzi, Nahal; Erickson, Austin; Choudhary, Zubin; Gottsacker, Matt; Bruder, Gerd; Welch, Greg (November 2021, Proc. of the ACM Symposium on Spatial User Interaction (SUI ’21))

   Smart devices and Internet of Things (IoT) technologies are replacing or being incorporated into traditional devices at a growing pace. The use of digital interfaces to interact with these devices has become a common occurrence in homes, work spaces, and various industries around the world. The most common interfaces for these connected devices focus on mobile apps or voice control via intelligent virtual assistants. However, with augmented reality (AR) becoming more popular and accessible among consumers, there are new opportunities for spatial user interfaces to seamlessly bridge the gap between digital and physical affordances. In this paper, we present a human-subject study evaluating and comparing four user interfaces for smart connected environments: gaze input, hand gestures, voice input, and a mobile app. We assessed participants’ user experience, usability, task load, completion time, and preferences. Our results show multiple trade-offs between these interfaces across these measures. In particular, we found that gaze input shows great potential for future use cases, while both gaze input and hand gestures suffer from limited familiarity among users, compared to voice input and mobile apps. 

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5. Trade-offs in Augmented Reality User Interfaces for Controlling a Smart Environment

   Flick, C.; Harris, C. J.; Yonkers, N.; Norouzi, N.; Erikson, A.; Choudhary, Z.; Gottsacker, M.; Bruder, G.; Welch, G. F. (November 2021, Proc. of the ACM Symposium on Spatial User Interaction (SUI ’21))

   Smart devices and Internet of Things (IoT) technologies are replacing or being incorporated into traditional devices at a growing pace. The use of digital interfaces to interact with these devices has become a common occurrence in homes, work spaces, and various industries around the world. The most common interfaces for these connected devices focus on mobile apps or voice control via intelligent virtual assistants. However, with augmented reality (AR) becoming more popular and accessible among consumers, there are new opportunities for spatial user interfaces to seamlessly bridge the gap between digital and physical affordances. In this paper, we present a human-subject study evaluating and comparing four user interfaces for smart connected environments: gaze input, hand gestures, voice input, and a mobile app. We assessed participants’ user experience, usability, task load, completion time, and preferences. Our results show multiple trade-offs between these interfaces across these measures. In particular, we found that gaze input shows great potential for future use cases, while both gaze input and hand gestures suffer from limited familiarity among users, compared to voice input and mobile apps. 

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