Designing AR Visualizations to Facilitate Stair Navigation for People with Low Vision
Title: Designing AR Visualizations to Facilitate Stair Navigation for People with Low Vision
Teams: Cornell University;Columbia University
Writers: Yuhang Zhao;Elizabeth Kupferstein;Brenda Veronica Castro;Steven K. Feiner;Shiri Azenkot profile imageShiri Azenkot
Publication date: October 2019
Abstract
Navigating stairs is a dangerous mobility challenge for people with low vision, who have a visual impairment that falls short of blindness. Prior research contributed systems for stair navigation that provide audio or tactile feedback, but people with low vision have usable vision and don’t typically use nonvisual aids. We conducted the first exploration of augmented reality (AR) visualizations to facilitate stair navigation for people with low vision. We designed visualizations for a projection-based AR platform and smartglasses, considering the different characteristics of these platforms. For projection-based AR, we designed visual highlights that are projected directly on the stairs. In contrast, for smartglasses that have a limited vertical field of view, we designed visualizations that indicate the user’s position on the stairs, without directly augmenting the stairs themselves. We evaluated our visualizations on each platform with 12 people with low vision, finding that the visualizations for projection-based AR increased participants’ walking speed. Our designs on both platforms largely increased participants’ self-reported psychological security.