TangibleCircuits: An Interactive 3D Printed Circuit Education Tool for People with Visual Impairments

ACM CHI 2020
Josh Urban Davis, Te-Yen Wu, Bo Shi, Hanyi Lui, Athina Panotopoulou, Emily Whiting, Xing-Dong Yang

System overview labeled A to C. A: 3D rendering of a circuit board. B: Circuit diagram. C: Photo of a 3D printed circuit board with an illustration of audio feedback saying “this is a transistor”.

Abstract

We present a novel haptic and audio feedback device that allows blind and visually impaired (BVI) users to understand circuit diagrams. TangibleCircuits allows users to interact with a 3D printed tangible model of a circuit which provides audio tutorial directions while being touched. Our system comprises an automated parsing algorithm which extracts 3D printable models as well as an audio interfaces from a Fritzing diagram. To better understand the requirements of designing technology to assist BVI users in learning hardware computing, we conducted a series of formative inquiries into the accessibility limitations of current circuit tutorial technologies. In addition, we derived insights and design considerations gleaned from conducting a formal comparative user study to understand the effectiveness of TangibleCircuits as a tutorial system. We found that BVI users were better able to understand the geometric, spatial and structural circuit information using TangibleCircuits, as well as enjoyed learning with our tool.

News

Best Paper Honorable Mention Award at CHI 2020 (top 5% of submissions)