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  1. Touch is often omitted or viewed as unnecessary in digital learning. Lack of touch feedback limits the accessibility and multimodal capacity of digital educational content. Touchscreens with vibratory, haptic feedback are prevalent, yet this kind of feedback is often under-utilized. This work provides initial investigations into the design, development, and use of vibratory feedback within multimodal, interactive, educational simulations on touchscreen devices by learners with and without visual impairments. The objective of this work is to design and evaluate different haptic paradigms that could support interaction and learning in educational simulations. We investigated the implementation of four haptic paradigms in two physics simulations. Interviews were conducted with eight learners (five sighted learners; three learners with visual impairments) on one simulation and initial results are shared. We discuss the learner outcomes of each paradigm and how they impact design and development moving forward. 
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  2. null (Ed.)
    Auditory description display is verbalized text typically used to describe live, recorded, or graphical displays to support access for people who are blind or visually impaired. Significant prior research has resulted in guidelines for auditory description for non-interactive or minimally interactive contexts. A lack of auditory description for complex interactive environments remains a tremendous barrier to access for people with visual impairments. In this work, we present a systematic design framework for designing auditory description within complex interactive environments. We illustrate how modular descriptions aligned with this framework can result in an interactive storytelling experience constructed through user interactions. This framework has been used in a set of published and widely used interactive science simulations, and in its generalized form could be applied to a variety of contexts. 
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  3. null (Ed.)
    Science simulations are widely used in classrooms to support inquiry-based learning of complex science concepts. These tools typically rely on interactive visual displays to convey relationships. Auditory displays, including verbal description and sonification (non-speech audio), combined with alternative input capabilities, may provide an enhanced experience for learners, particularly learners with visual impairment. We completed semi-structured interviews and usability testing with eight adult learners with visual impairment for two audio-enhanced simulations. We analyzed trends and edge cases in participants' interaction patterns, interpretations, and preferences. Findings include common interaction patterns across simulation use, increased efficiency with second use, and the complementary role that description and sonification play in supporting learning opportunities. We discuss how these control and display layers work to encourage exploration and engagement with science simulations. We conclude with general and specific design takeaways to support the implementation of auditory displays for accessible simulations. 
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  4. We present a multimodal physics simulation, including visual and auditory (description, sound effects, and sonification) modalities to support the diverse needs of learners. We describe design challenges and solutions, and findings from final simulation evaluations with learners with and without visual impairments. We also share insights from completing research with members of diverse learner groups (N = 52). This work presents approaches for designing and evaluating accessible interactive simulations for learners with diverse needs. 
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