Article

Haptic Paradigms for Multimodal Interactive

Touch is often omitted or viewed as unnecessary in digital learning. Lack of touch feedback limits the accessibility and multi-modal 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 multi-modal, 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.

Items in ScholarWorks are protected by copyright, with all rights reserved, unless otherwise indicated.