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1. Learning AI Auditing: A Case Study of Teenagers Auditing a Generative AI Model.

   Morales_Navarro, L; Gan, M; Yu, E; Vogelstein, L; Kafai, Y B; Metaxa, D (September 2025, Proceedings of the ACM on humancomputer interaction)

   This study investigates how high school-aged youth engage in algorithm auditing to identify and understand biases in artificial intelligence and machine learning (AI/ML) tools they encounter daily. With AI/ML technologies being increasingly integrated into young people’s lives, there is an urgent need to equip teenagers with AI literacies that build both technical knowledge and awareness of social impacts. Algorithm audits (also called AI audits) have traditionally been employed by experts to assess potential harmful biases, but recent research suggests that non-expert users can also participate productively in auditing. We conducted a two-week participatory design workshop with 14 teenagers (ages 14–15), where they audited the generative AI model behind TikTok’s Effect House, a tool for creating interactive TikTok filters. We present a case study describing how teenagers approached the audit, from deciding what to audit to analyzing data using diverse strategies and communicating their results. Our findings show that participants were engaged and creative throughout the activities, independently raising and exploring new considerations, such as age-related biases, that are uncommon in professional audits. We drew on our expertise in algorithm auditing to triangulate their findings as a way to examine if the workshop supported participants to reach coherent conclusions in their audit. Although the resulting number of changes in race, gender, and age representation uncovered by the teens were slightly different from ours, we reached similar conclusions. This study highlights the potential for auditing to inspire learning activities to foster AI literacies, empower teenagers to critically examine AI systems, and contribute fresh perspectives to the study of algorithmic harms. 

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2. Learning About Algorithm Auditing In Five Steps: Scaffolding How High School Youth Can Systematically and Critically Evaluate Machine Learning Applications.

   Morales-Navarro, L; Kafai, Y B; Vogelstein, L; Yu, E; Metaxa, D (June 2024, ISLS)

   Hoadley, C; Wang, C (Ed.)

   While there is widespread interest in supporting young people to critically evaluate machine learning-powered systems, there is little research on how we can support them in inquiring about how these systems work and what their limitations and implications may be. Outside of K-12 education, an effective strategy in evaluating black-boxed systems is algorithm auditing—a method for understanding algorithmic systems’ opaque inner workings and external impacts from the outside in. In this paper, we review how expert researchers conduct algorithm audits and how end users engage in auditing practices to propose five steps that, when incorporated into learning activities, can support young people in auditing algorithms. We present a case study of a team of teenagers engaging with each step during an out-of-school workshop in which they audited peer-designed generative AI TikTok filters. We discuss the kind of scaffolds we provided to support youth in algorithm auditing and directions and challenges for integrating algorithm auditing into classroom activities. This paper contributes: (a) a conceptualization of five steps to scaffold algorithm auditing learning activities, and (b) examples of how youth engaged with each step during our pilot study. 

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3. Rapid Testing, Duck Lips, and Tilted Cameras: Youth Everyday Algorithm Auditing Practices with Generative AI Filters.

   Vogelstein, L; Konda, V; Fields, D; Kafai, Y; Morales-Navarro, L; Metaxa, D (June 2025, ISLS)

   Seitamaa_Hakkarainen, P; Kangas, K (Ed.)

   Today’s youth have extensive experience interacting with artificial intelligence and machine learning applications on popular social media platforms, putting youth in a unique position to examine, evaluate, and even challenge these applications. Algorithm auditing is a promising candidate for connecting youth’s everyday practices in using AI applications with more formal scientific literacies (i.e., syncretic designs). In this paper, we analyze high school youth participants’ everyday algorithm auditing practices when interacting with generative AI filters on TikTok, revealing thorough and extensive examinations, with youth rapidly testing filters with sophisticated camera variations and facial manipulations to identify filter limitations. In the discussion, we address how these findings can provide a foundation for developing designs that bring together everyday and more formal algorithm auditing. 

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4. Understanding Practices, Challenges, and Opportunities for User-Engaged Algorithm Auditing in Industry Practice

   https://doi.org/10.1145/3544548.3581026  

   Deng, Wesley Hanwen; Guo, Boyuan; Devrio, Alicia; Shen, Hong; Eslami, Motahhare; Holstein, Kenneth (April 2023, ACM)

   Recent years have seen growing interest among both researchers and practitioners in user-engaged approaches to algorithm auditing, which directly engage users in detecting problematic behaviors in algorithmic systems. However, we know little about industry practitioners’ current practices and challenges around user-engaged auditing, nor what opportunities exist for them to better leverage such approaches in practice. To investigate, we conducted a series of interviews and iterative co-design activities with practitioners who employ user-engaged auditing approaches in their work. Our findings reveal several challenges practitioners face in appropriately recruiting and incentivizing user auditors, scaffolding user audits, and deriving actionable insights from user-engaged audit reports. Furthermore, practitioners shared organizational obstacles to user-engaged auditing, surfacing a complex relationship between practitioners and user auditors. Based on these findings, we discuss opportunities for future HCI research to help realize the potential (and mitigate risks) of user-engaged auditing in industry practice. 

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5. Reflective Design for Informal Participatory Algorithm Auditing: A Case Study with Emotion AI

   https://doi.org/10.1145/3679318.3685411  

   Howell, Noura; Hartsoe, Watson F; Amin, Jacob; Namani, Vyshnavi (October 2024, ACM)

   This paper suggests how reflective design can aid informal participatory algorithm auditing. Drawing from reflective design, we designed a simple web-form probe to invite critical reflection on Emotion AI, ethically controversial techniques predicting individuals’ emotions. Participants engaged the probe throughout their daily lives for about a week. Then, we interviewed participants about their experiences and reflections. Our findings surface themes around participants’ (i) critiques of Emotion AI, (ii) factors contributing to inaccuracy, and (iii) patterns of miscategorization. Our discussion contributes (1) recommendations for Emotion AI and (2) how reflective design may offer considerations to inform algorithm auditing. Overall, our paper suggests ways critically-oriented design research can engage AI ethics through informal, participatory, exploratory algorithm auditing. 

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