More Like this

1. Personal Health Data Tracking by Blind and Low-Vision People: Survey Study

   https://doi.org/10.2196/43917  

   Lee, Jarrett G; Lee, Kyungyeon; Lee, Bongshin; Choi, Soyoung; Seo, JooYoung; Choe, Eun Kyoung (April 2023, Journal of Medical Internet Research)

   Background: Personal health technologies, including wearable tracking devices and mobile apps, have great potential to equip the general population with the ability to monitor and manage their health. However, being designed for sighted people, much of their functionality is largely inaccessible to the blind and low-vision (BLV) population, threatening the equitable access to personal health data (PHD) and health care services. Objective: This study aims to understand why and how BLV people collect and use their PHD and the obstacles they face in doing so. Such knowledge can inform accessibility researchers and technology companies of the unique self-tracking needs and accessibility challenges that BLV people experience. Methods: We conducted a web-based and phone survey with 156 BLV people. We reported on quantitative and qualitative findings regarding their PHD tracking practices, needs, accessibility barriers, and work-arounds. Results: BLV respondents had strong desires and needs to track PHD, and many of them were already tracking their data despite many hurdles. Popular tracking items (ie, exercise, weight, sleep, and food) and the reasons for tracking were similar to those of sighted people. BLV people, however, face many accessibility challenges throughout all phases of self-tracking, from identifying tracking tools to reviewing data. The main barriers our respondents experienced included suboptimal tracking experiences and insufficient benefits against the extended burden for BLV people. Conclusions: We reported the findings that contribute to an in-depth understanding of BLV people’s motivations for PHD tracking, tracking practices, challenges, and work-arounds. Our findings suggest that various accessibility challenges hinder BLV individuals from effectively gaining the benefits of self-tracking technologies. On the basis of the findings, we discussed design opportunities and research areas to focus on making PHD tracking technologies accessible for all, including BLV people. 

   more » « less
2. Inquiry into accessibility service possibilities for blind and low-vision university students through co-designing a 3D-printed tactile campus map

   https://doi.org/10.1108/JET-11-2024-0076  

   Crawford, Kirk; Posada, Jennifer; Okueso, Yetunde Esther; Higgins, Erin; Lachin, Laura; Hamidi, Foad (March 2026, Journal of Enabling Technologies)

   PurposeOur study’s purpose is to understand the possibilities and challenges of using 3D printed tactile maps to improve campus navigational services for blind and low-vision (BLV) students. Design/methodology/approachWe used a participatory design (PD) approach with co-design sessions, focus groups and interviews with students with disabilities and university accessibility service providers. In this study, we focus on findings from a focus group with expert accessibility service providers. FindingsKey contributions include insight into the navigational challenges and preferences of BLV students in a university environment. We further discuss the importance of collaboration between researchers and university accessibility service providers and the need to adopt accessible principles at an institutional level to support do-it-yourself (DIY) assistive technology approaches, increasing access in formal learning contexts. Research limitations/implicationsThe scope of our participant pool was limited, involving a small number of students from a single US institution. Also, the inaccessibility of the 3D design tools we had access to prevented our participants from engaging directly in the map design process. Practical implicationsOur work contributes to the accessibility and assistive technologies research communities by highlighting the challenges faced by BLV students when navigating their campus and by demonstrating the efficacy of PD practices in developing 3D-printed tactile maps that elevate their needs and open up possibilities for advocacy and multi-stakeholder conversation. Originality/valueOur study shows the perspectives of university accessibility service providers on the possibility of using DIY assistive technology, such as a 3D-printed tactile campus map, to facilitate accessibility services for BLV university students in the United States. 

   more » « less
3. Exploring a Research Agenda for Design Knowledge Capture in Meetings

   Liz Seero; Adriana Meza Soria; Andre ́ van der Hoek; Janet Burge (January 2023, International Conference on the Cooperative and Human Aspects of Software Engineering)

   Meetings are a frequent part of life for a software developer. Software design is often performed, discussed, and reviewed in these meetings. This means that meetings may contain important design information that could be captured for later use. Meeting design tools may be a way to capture design information as a byproduct of discussion that arises in these meetings. In this paper, we identify a list of key meeting support tool features that could support the capture and retrieval of design information and compare these to features currently offered in commercial meeting support tools. 

   more » « less
4. Understanding How to Inform Blind and Low-Vision Users about Data Privacy through Privacy Question Answering Assistants

   Feng, Yuanyuan; Ravichander, Abhilasha; Yao, Yashing; Zhang, Shikun; Chen, Rex; Wilson, Shomir; Sadeh, Norman (August 2024, 33rd USENIX Security Symposium (USENIX Security 24) - USENIX Association)

   Understanding and managing data privacy in the digital world can be challenging for sighted users, let alone blind and lowvision (BLV) users. There is limited research on how BLV users, who have special accessibility needs, navigate data privacy, and how potential privacy tools could assist them. We conducted an in-depth qualitative study with 21 US BLV participants to understand their data privacy risk perception and mitigation, as well as their information behaviors related to data privacy. We also explored BLV users’ attitudes towards potential privacy question answering (Q&A) assistants that enable them to better navigate data privacy information. We found that BLV users face heightened security and privacy risks, but their risk mitigation is often insufficient. They do not necessarily seek data privacy information but clearly recognize the benefits of a potential privacy Q&A assistant. They also expect privacy Q&A assistants to possess cross-platform compatibility, support multi-modality, and demonstrate robust functionality. Our study sheds light on BLV users’ expectations when it comes to usability, accessibility, trust and equity issues regarding digital data privacy. 

   more » « less
5. DotQuest: Accessible STEM games to support blind and visually impaired learners

   Han, Ariel; Joshi, Rajeev; Tsivkovski, Daniel; Ravel, Dylan; Etezadbrojerdi, Maryam; Cibrian, Franceli (July 2026, International Society of the Learning Sciences (ISLS))

   Blind and low vision (BLV) students face persistent barriers to full participation in STEM learning, particularly due to the limited availability of accessible tools. This study introduces DotQuest, a technology probe that integrates haptic feedback, and a conversational agent to create narrative-driven, game-based STEM activities. To examine how such tools might support equitable participation, we conducted interviews with seven Teachers of Students with Visual Impairments (TVIs) across U.S. Analysis revealed that teachers emphasize the importance of simultaneous tactile and auditory access, the need for classroom tools that foster both independence and inclusion, and the value of designing accessibility from the outset rather than as an accommodation. Findings show that multimodal game-based environments can enhance STEM engagement while revealing systemic barriers for BLV learners. This work contributes to the learning sciences by deepening understanding of how multimodal and inclusive design can guide the development of equitable STEM learning environments. 

   more » « less