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1. Practical Eye Tracking with iTrace

   https://doi.org/10.1109/EMIP.2019.00015  

   Sharif, Bonita; Peterson, Cole; Guarnera, Drew; Bryant, Corey; Buchanan, Zachary; Zyrianov, Vlas; Maletic, Jonathan (May 2019, 2019 IEEE/ACM 6th International Workshop on Eye Movements in Programming (EMIP))

   null (Ed.)

   The evolution and effort in designing and implementing iTrace, an infrastructure for integrating eye tracking into developer environments, is presented. The goal is to make eye tracking practical for various stakeholders in software engineering namely researchers, practitioners, and educators. An overview of iTrace and the general process involved in conducting an eye tracking study with human subjects using iTrace is presented in this tool demo paper. Upcoming features and ongoing plans for community involvement are also presented. 

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2. Practical Eye Tracking with iTrace

   Sharif, B; Peterson, C; Guarnera, D; Bryant, C; Buchanan, Z; Zyrianov, V; Maletic, J (January 2019, Proceedings of the 6th International Workshop on Eye Movements in Programming (EMIP))

   The evolution and effort in designing and implementing iTrace, an infrastructure for integrating eye tracking into developer environments, is presented. The goal is to make eye tracking practical for various stakeholders in software engineering namely researchers, practitioners, and educators. An overview of iTrace and the general process involved in conducting an eye tracking study with human subjects using iTrace is presented in this tool demo paper. Upcoming features and ongoing plans for community involvement are also presented. 

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3. gazel: Supporting Source Code Edits in Eye-Tracking Studies

   Fakhoury, Sarah; Roy, Devjeet; Pines, Harry; Clevelandand, Tyler; Peterson, Cole S.; Arnaoudova, Venera; Sharif, Bonita; Maletic, Jonathan I. (April 2021, International Conference on Software Engineering (ICSE) - Demonstrations Track)

   null (Ed.)

   Eye tracking tools are used in software engineering research to study various software development activities. However, a major limitation of these tools is their inability to track gaze data for activities that involve source code editing. We present a novel solution to support eye tracking experiments for tasks involving source code edits as an extension of the iTrace community infrastructure. We introduce the iTrace-Atom plugin and gazel—a Python data processing pipeline that maps gaze information to changing source code elements and provides researchers with a way to query this dynamic data. iTrace-Atom is evaluated via a series of simulations and is over 99% accurate at high eye-tracking speeds of over 1,000Hz. iTrace and gazel completely revolutionize the way eye tracking studies are conducted in realistic settings with the presence of scrolling, context switching, and now editing. This opens the doors to support many day-to-day software engineering tasks such as bug fixing, adding new features, and refactoring. 

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4. The Eye in Extended Reality: A Survey on Gaze Interaction and Eye Tracking in Head-worn Extended Reality

   https://doi.org/10.1145/3491207  

   Plopski, Alexander; Hirzle, Teresa; Norouzi, Nahal; Qian, Long; Bruder, Gerd; Langlotz, Tobias (April 2023, ACM Computing Surveys)

   With innovations in the field of gaze and eye tracking, a new concentration of research in the area of gaze-tracked systems and user interfaces has formed in the field of Extended Reality (XR). Eye trackers are being used to explore novel forms of spatial human–computer interaction, to understand human attention and behavior, and to test expectations and human responses. In this article, we review gaze interaction and eye tracking research related to XR that has been published since 1985, which includes a total of 215 publications. We outline efforts to apply eye gaze for direct interaction with virtual content and design of attentive interfaces that adapt the presented content based on eye gaze behavior and discuss how eye gaze has been utilized to improve collaboration in XR. We outline trends and novel directions and discuss representative high-impact papers in detail. 

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5. Open Iris - An Open Source Framework for Video-Based Eye-Tracking Research and Development

   https://doi.org/10.1145/3649902.3653348  

   Sadeghi, Roksana; Ressmeyer, Ryan; Yates, Jacob; Otero-Millan, Jorge (June 2024, ACM)

   Eye-tracking is an essential tool in many fields, yet existing solutions are often limited for customized applications due to cost or lack of flexibility. We present OpenIris, an adaptable and user-friendly open-source framework for video-based eye-tracking. OpenIris is developed in C# with modular design that allows further extension and customization through plugins for different hardware systems, tracking, and calibration pipelines. It can be remotely controlled via a network interface from other devices or programs. Eye movements can be recorded online from camera stream or offline post-processing recorded videos. Example plugins have been developed to track eye motion in 3-D, including torsion. Currently implemented binocular pupil tracking pipelines can achieve frame rates of more than 500Hz. With the OpenIris framework, we aim to fill a gap in the research tools available for high-precision and high-speed eye-tracking, especially in environments that require custom solutions that are not currently well-served by commercial eye-trackers. 

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