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1. SAGE3 - the Smart Amplified Group Environment

   Tabalba, R.; Kirshenbaum, N.; Harden, J.; Rogers, M.; Nishimoto, A.; Christman, E.; Yu, A.; Theriot, R.; Long, L.; Renambot, L.; et al (October 2023, Science Gateways 2023 Annual Conference)

   SAGE3 is software to augment the cyberinfrastructure-enhanced research and education enterprise by supporting data-intensive collaboration across a wide range of display devices from high-resolution display walls to laptops. This paper provides insight into SAGE3’s implementation, which significantly improves on prior generations of SAGE by leveraging emerging advancements in Web technologies and Artificial Intelligence. We also provide an overview of new usage patterns that we observed with SAGE3. 

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2. SAGE3 - the Smart Amplified Group Environment,

   Tabalba, R.; Kirshenbaum, N.; Harden, J.; Rogers, M.; Nishimoto, A.; Christman, E.; Yu, A.; Theriot, R.; Long, L.; Renambot, L.; et al (October 2023, Science Gateways 2023 Annual Conference)

   SAGE3 is software to augment the cyberinfrastructure-enhanced research and education enterprise by supporting data-intensive collaboration across a wide range of display devices from high-resolution display walls to laptops. This paper provides insight into SAGE3’s implementation, which significantly improves on prior generations of SAGE by leveraging emerging advancements in Web technologies and Artificial Intelligence. We also provide an overview of new usage patterns that we observed with SAGE3. 

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3. SAGE3 for Interactive Collaborative Visualization, Analysis, and Storytelling

   https://doi.org/10.1145/3626485.3626541  

   Harden, Jesse; Kirshenbaum, Nurit; Tabalba Jr., Roderick S.; Leigh, Jason; Renambot, Luc; North, Chris (November 2023, ISS Companion ‘23: Companion Proceedings of the 2023 Conference on Interactive Surfaces and Spaces)

   SAGE3, the newest and most advanced generation of the Smart Amplified Group Environment, is an open-source software designed to facilitate collaboration among scientists, researchers, students, and professionals across various fields. This tutorial aims to introduce attendees to the capabilities of SAGE3, demonstrating its ability to enhance collaboration and productivity in diverse settings, from co-located office collaboration to remote collaboration to both at once, with diverse displays, from personal laptops to large-scale display walls. Participants will learn how to effectively use SAGE3 for brainstorming, data analysis, and presentation purposes, as well as installation of private collaboration servers and development of custom applications. 

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4. Space to Teach: Content-Rich Canvases for Visually-Intensive Education

   https://doi.org/10.1109/EduVIS63909.2024.00012  

   Harden, J; Kirshenbaum, N; Tabalba, R; Theriot, R; Rogers, M; Belcaid, M; North, C; Renambot, L; Long, L; Johnson, A; et al (October 2024, IEEE)

   With the decreasing cost of consumer display technologies making it easier for universities to have larger displays in classrooms, and the ubiquitous use of online tools such as collaborative whiteboards for remote learning during the COVID-19 pandemic, combining the two can be useful in higher education. This is especially true in visually intensive classes, such as data visualization courses, that can benefit from additional "space to teach," coined after the "space to think" sense-making idiom. In this paper, we reflect on our approach to using SAGE3, a collaborative whiteboard with advanced features, in higher education to teach visually intensive classes, provide examples of activities from our own visually-intensive courses, and present student feedback. We gather our observations into usage patterns for using content-rich canvases in education. 

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5. ECSkin: Tessellating Electrochromic Films for Reconfigurable On-skin Displays

   https://doi.org/10.1145/3659613  

   Ku, Pin-Sung; Jiang, Shuwen; Wang, Wei-Hsin; Kao, Hsin-Liu Cindy (May 2024, Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies)

   Emerging electrochromic (EC) materials have advanced the frontier of thin-film, low-power, and non-emissive display technologies. While suitable for wearable or textile-based applications, current EC display systems are manufactured in fixed, pre-designed patterns that hinder the potential of reconfigurable display technologies desired by on-skin interactions. To realize the customizable and scalable EC display for skin wear, this paper introduces ECSkin, a construction toolkit composed of modular EC films. Our approach enables reconfigurable designs that display customized patterns by arranging combinations of premade EC modules. An ECSkin device can pixelate patterns and expand the display area through tessellating congruent modules. We present the fabrication of flexible EC display modules with accessible materials and tools. We performed technical evaluations to characterize the electrochromic performance and conducted user evaluations to verify the toolkit's usability and feasibility. Two example applications demonstrate the adaptiveness of the modular display on different body locations and user scenarios. 

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