Abstract
Designing for surprise is a useful tool for designers and can elevate a product from mundane to memorable, drawing attention and inviting engagement. Existing strategies have explored surprise in product design through the exploration of sensory incongruities, most notably visual-tactile incongruities: when an object looks different to what it feels like to touch. There are two digital technologies that offer new opportunities to investigate surprise in tangible-embedded interactive systems: 3D printing and tangible interaction through sensor controls. Research is yet to investigate how visually tactually incongruous 3D printing can offer new strategies for eliciting surprise in lighting design through tangible-embedded interactive systems. This research addresses this identified gap by assessing the applicability of the Ludden’s strategies to surprise through 3D printing. This was performed through the design of a series of experimental 3D printed objects and lights that sought to surprise by using visual-tactile incongruities. We suggest new approaches expressed through the final designs of four interactive lights; objects designed to inspire delight through their unique interactions and surprising qualities. We report on new strategies to surprise by using an experiential gap between vision and touch through 3D printing and we report the findings from user-testing sessions.
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call