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1. Designing Interactive 3D Printed Models with Teachers of the Visually Impaired

   https://doi.org/10.1145/3290605.3300427  

   Shi, Lei; Lawson, Holly; Zhang, Zhuohao; Azenkot, Shiri (January 2019, 2019 ACM Conference on Human Factors in Computing Systems)

   Students with visual impairments struggle to learn various concepts in the academic curriculum because diagrams, images, and other visual are not accessible to them. To address this, researchers have design interactive 3D printed models (I3Ms) that provide audio descriptions when a user touches components of a model. In prior work, I3Ms were designed on an ad hoc basis, and it is currently unknown what general guidelines produce effective I3M designs. To address this gap, we conducted two studies with Teachers of the Visually Impaired (TVIs). First, we led two design workshops with 35 TVIs, who modified sample models and added interactive elements to them. Second, we worked with three TVIs to design three I3Ms in an iterative instructional design process. At the end of this process, the TVIs used the I3Ms we designed to teach their students. We conclude that I3Ms should (1) have effective tactile features (e.g., distinctive patterns between components), (2) contain both auditory and visual content (e.g., explanatory animations), and (3) consider pedagogical methods (e.g., overview before details). 

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2. Data Moves as a Focusing Lens for Learning to Teach with CODAP

   https://doi.org/10.1080/07380569.2024.2411705  

   Hudson, Rick A; Mojica, Gemma F; Lee, Hollylynne S; Casey, Stephanie (October 2024, Computers in the Schools)

   Innovative dynamic data tools afford opportunities for K-12 students and teachers to explore multivariate data and create linked data representations. These tools also support engagement in data moves, which are transnumerative actions to process, organize, and visualize data. The current study sought to understand how prospective K-12 mathematics teachers (PMTs) use data moves in the Common Online Data Analysis Platform (CODAP) to create and interpret visualizations and statistical measures to make sense of state-level data about education in the United States. Extending the work of Erickson et al. (Citation2019), a framework is presented to characterize data moves and provide examples of actions within CODAP that illustrate each data move. Based on analysis of thirty screencasts created by PMTs, four examples highlight PMTs’ use of data moves to investigate data in CODAP. 

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3. A Demonstration of Molder: An Accessible Design Tool for Tactile Maps

   https://doi.org/10.1145/3308561.3354594  

   Shi, Lei; Zhao, Yuhang; Kupferstein, Elizabeth; Azenkot, Shiri (January 2019, The 21st International ACM SIGACCESS Conference on Computers and Accessibility)

   Tactile maps are important tools for people with visual impairments (VIs). Teachers and orientation and mobility (O&M) specialists often design tactile maps to help their VI students and clients learn about geographic areas. To design these maps, a designer must use modeling software applications, which require professional training and rely on visual feedback. However, most teachers and O&M specialists do not have professional modeling skills, and many have visual impairments. The complexity and inaccessibility of current modeling tools thus become major barriers for TVIs and O&M specialists when designing tactile maps. We present Molder, an accessible design tool for tactile maps. A designer creates a draft map model using Molder and prints the model. Then, she uses Molder to modify the draft model by directly interacting with it. Molder provides auditory feedback and high-contrast visuals to assist the designer in the design process. 

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4. The role of representational competencies for students’ learning from an educational video game for astronomy

   https://doi.org/10.3389/feduc.2022.919645  

   Herder, Tiffany; Rau, Martina A. (November 2022, Frontiers in Education)

   Educational video games can engage students in authentic STEM practices, which often involve visual representations. In particular, because most interactions within video games are mediated through visual representations, video games provide opportunities for students to experience disciplinary practices with visual representations. Prior research on learning with visual representations in non-game contexts suggests that visual representations may confuse students if they lack prerequisite representational-competencies. However, it is unclear how this research applies to game environments. To address this gap, we investigated the role of representational-competencies for students’ learning from video games. We first conducted a single-case study of a high-performing undergraduate student playing an astronomy game as an assignment in an astronomy course. We found that this student had difficulties making sense of the visual representations in the game. We interpret these difficulties as indicating a lack of representational-competencies. Further, these difficulties seemed to lead to the student’s inability to relate the game experiences to the content covered in his astronomy course. A second study investigated whether interventions that have proven successful in structured learning environments to support representational-competencies would enhance students’ learning from visual representations in the video game. We randomly assigned 45 students enrolled in an undergraduate course to two conditions. Students either received representational-competency support while playing the astronomy game or they did not receive this support. Results showed no effects of representational-competency supports. This suggests that instructional designs that are effective for representational-competency supports in structured learning environments may not be effective for educational video games. We discuss implications for future research, for designers of educational games, and for educators. 

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5. Multimodality as universality: Designing inclusive accessibility to graphical information

   https://doi.org/10.3389/feduc.2023.1071759  

   Doore, Stacy A.; Dimmel, Justin; Kaplan, Toni M.; Guenther, Benjamin A.; Giudice, Nicholas A. (April 2023, Frontiers in Education)

   Graphical representations are ubiquitous in the learning and teaching of science, technology, engineering, and mathematics (STEM). However, these materials are often not accessible to the over 547,000 students in the United States with blindness and significant visual impairment, creating barriers to pursuing STEM educational and career pathways. Furthermore, even when such materials are made available to visually impaired students, access is likely through literalized modes (e.g., braille, verbal description), which is problematic as these approaches (1) do not directly convey spatial information and (2) are different from the graphic-based materials used by students without visual impairment. The purpose of this study was to design and evaluate a universally accessible system for communicating graphical representations in STEM classes. By combining a multisensory vibro-audio interface and an app running on consumer mobile hardware, the system is meant to work equally well for all students, irrespective of their visual status. We report the design of the experimental system and the results of an experiment where we compared learning performance with the system to traditional (visual or tactile) diagrams for sighted participants (n = 20) and visually impaired participants (n =9) respectively. While the experimental multimodal diagrammatic system (MDS) did result in significant learning gains for both groups of participants, the results also revealed no statistically significant differences in the capacity for learning from graphical information across both comparison groups. Likewise, there were no statistically significant differences in the capacity for learning from graphical information between the stimuli presented through the experimental system and the traditional (visual or tactile) diagram control conditions, across either participant group. These findings suggest that both groups were able to learn graphical information from the experimental system as well as traditional diagram presentation materials. This learning modality was supported without the need for conversion of the diagrams to make them accessible for participants who required tactile materials. The system also provided additional multisensory information for sighted participants to interpret and answer questions about the diagrams. Findings are interpreted in terms of new universal design principles for producing multisensory graphical representations that would be accessible to all learners. 

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