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1. Approaching “Filter Bubble” in Recommendation Systems: A Transformative AI Literacy Learning Experience

   https://doi.org/10.22318/icls2024.921873  

   Gong, Yunfan; Zhou, Xiaofei; Zhou, Yushan; Luehmann, April; Han, Yujung; Bai, Zhen (June 2024, International Society of the Learning Sciences)

   Young learners today are constantly influenced by AI recommendations, from media choices to social connections. The resulting "filter bubble" can limit their exposure to diverse perspectives, which is especially problematic when they are not aware this manipulation is happening or why. To address the need to support youth AI literacy, we developed "BeeTrap", a mobile Augmented Reality (AR) learning game designed to enlighten young learners about the mechanisms and the ethical issue of recommendation systems. Transformative Experience model was integrated into learning activities design, focusing on making AI concepts relevant to students’ daily experiences, facilitating a new understanding of their digital world, and modeling real-life applications. Our pilot study with middle schoolers in a community-based program primarily investigated how transformative structured AI learning activities affected students’ understanding of recommendation systems and their overall conceptual, emotional, and behavioral changes toward AI. 

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2. Seamfulness and Culturally Responsive Computing

   https://doi.org/10.1109/RESPECT55273.2022.00014  

   Dixon, Colin.; Hsi, Sherry.; Oh, HyunJoo. (May 2021, Conference on Research in Equity and Sustained Participation in Engineering, Computing, and Technology (RESPECT))

   To make computer science (CS) more equitable, many educational efforts are shifting foci from access and content understanding to include identification, agency, and social change. As part of these efforts, we look at how learners perceive themselves in relation to what they believe CS is and what it means to participate in CS. Informed by three design lenses, unblackboxing, culturally responsive computing, and creative production, we designed a physical computing kit and activities. Drawing from qualitative analysis of interviews, artifacts, and observation of six young people in a weeklong summer workshop, we report on the experiences of two young Black women designers. We found that using these materials young people were able to: leverage personal goals and prior experiences in computing work; feel as if they were figuring out computing systems; and recognize computational technologies as created by people for particular purposes. We observed that while the mix of materials and activities created some frustration for participants, it also prompted processes of community building and inquiry. We discuss implications for design of computational tools in equity-centered CS education and pose seamfulness as an emergent heuristic when designing for learning that engages young people with the social, not just material, systems of computing. 

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3. Interactive tools for distributed community building and collaboration in maker education

   Tissenbaum, M.; Holbert, N.; Halverson, E.; Fields, D. A.; et al. (January 2023, Proceedings of the 17th International Conference of the Learning Sciences)

   In this paper we share the seemingly ordinary community-building digital technologies that helped facilitate nine days of virtual professional development (PD) on the Electronic Textiles (hereafter e-textiles) unit for Exploring Computer Science (ECS). The e-textiles unit challenges teachers to learn new content about computing by designing functional circuitry in hands-on, personalized crafts, in ways that stimulate inclusive pedagogy and asset-based perspectives of students. Finding the right combination of supportive technologies spanned two years, including planning and two rounds of implementation (2020-2022), with careful reflection for re-design. We decided on a few seemingly basic digital technologies that supported the following design goals: 1) transparency of in-progress crafts, 2) community-building, and 3) connection to teachers’ everyday classroom practice. Below we share three technology choices that orient our revised PD model with explanations for those choices rooted in theory and practice. 

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4. Be Consistent, Work the Program, Be Present Every Day: Exploring Technologies for Self-Tracking in Early Recovery

   https://doi.org/10.1145/3494955  

   Jones, Jasmine; Yuan, Ye; Yarosh, Svetlana (December 2021, Proceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies)

   Recovery from substance abuse disorders (SUDs) is a lifelong process of change. Self-tracking technologies have been proposed by the recovery community as a beneficial design space to support people adopting positive lifestyles and behaviors in their recovery. To explore the potential of this design space, we designed and deployed a technology probe consisting of a mobile app, wearable visualization, and ambient display to enable people to track and reflect on the activities they adopted in their recovery process. With this probe we conducted a four-week exploratory field study with 17 adults in early recovery to investigate 1) what activities people in recovery desire to track, 2) how people perceive self-tracking tools in relation to their recovery process, and 3) what digital resources self-tracking tools can provide to aid the recovery process. Our findings illustrate the array of activities that people track in their recovery, along with usage scenarios, preferences and design tensions that arose. We discuss implications for holistic self-tracking technologies and opportunities for future work in behavior change support for this context. 

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5. Preventing Cardiovascular Disease Among Urban African Americans With a Mobile Health App (the MOYO App): Protocol for a Usability Study

   https://doi.org/10.2196/16699  

   Taylor Jr, Herman A; Francis, Sherilyn; Evans, Chad Ray; Harvey, Marques; Newton, Brittney A; Jones, Camara P; Akintobi, Tabia Henry; Clifford, Gari (January 2020, JMIR Research Protocols)

   null (Ed.)

   Background Cardiovascular disease (CVD) disparities are a particularly devastating manifestation of health inequity. Despite advancements in prevention and treatment, CVD is still the leading cause of death in the United States. Additionally, research indicates that African American (AA) and other ethnic-minority populations are affected by CVD at earlier ages than white Americans. Given that AAs are the fastest-growing population of smartphone owners and users, mobile health (mHealth) technologies offer the unparalleled potential to prevent or improve self-management of chronic disease among this population. Objective To address the unmet need for culturally tailored primordial prevention CVD–focused mHealth interventions, the MOYO app was cocreated with the involvement of young people from this priority community. The overall project aims to develop and evaluate the effectiveness of a novel smartphone app designed to reduce CVD risk factors among urban-AAs, 18-29 years of age. Methods The theoretical underpinning will combine the principles of community-based participatory research and the agile software development framework. The primary outcome goals of the study will be to determine the usability, acceptability, and functionality of the MOYO app, and to build a cloud-based data collection infrastructure suitable for digital epidemiology in a disparity population. Changes in health-related parameters over a 24-week period as determined by both passive (eg, physical activity levels, sleep duration, social networking) and active (eg, use of mood measures, surveys, uploading pictures of meals and blood pressure readings) measures will be the secondary outcome. Participants will be recruited from a majority AA “large city” school district, 2 historically black colleges or universities, and 1 urban undergraduate college. Following baseline screening for inclusion (administered in person), participants will receive the beta version of the MOYO app. Participants will be monitored during a 24-week pilot period. Analyses of varying data including social network dynamics, standard metrics of activity, percentage of time away from a given radius of home, circadian rhythm metrics, and proxies for sleep will be performed. Together with external variables (eg, weather, pollution, and socioeconomic indicators such as food access), these metrics will be used to train machine-learning frameworks to regress them on the self-reported quality of life indicators. Results This 5-year study (2015-2020) is currently in the implementation phase. We believe that MOYO can build upon findings of classical epidemiology and longitudinal studies like the Jackson Heart Study by adding greater granularity to our knowledge of the exposures and behaviors that affect health and disease, and creating a channel for outreach capable of launching interventions, clinical trials, and enhancements of health literacy. Conclusions The results of this pilot will provide valuable information about community cocreation of mHealth programs, efficacious design features, and essential infrastructure for digital epidemiology among young AA adults. International Registered Report Identifier (IRRID) DERR1-10.2196/16699 

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