Levitation with localised tactile and audio feedback for mid-air interactions (Levitate)
Forskningsprojekt, 2017
– 2020
This project will be the first to create, prototype and evaluate a radically new human-computer interaction paradigm that empowers the unadorned user to reach into levitating matter, see it, feel it, manipulate it and hear it. Our users can interact with the system in a walk-up-and-use manner without any user instrumentation.
As we are moving away from keyboards and mice to touch and touchless interactions, ironically, the main limit is the lack of any physicality and co-located feedback. In this project, we propose a highly novel vision of bringing the physical interface to the user in mid-air. In our vision, the computer can control the existence, form, and appearance of complex levitating objects composed of "levitating atoms". Users can reach into the levitating matter, feel it, manipulate it, and hear how they deform it with all feedback originating from the levitating object's position in mid-air, as it would with objects in real life. This will completely change how people use technology as it will be the first time that they can interact with technology in the same way they would with real objects in their natural environment.
We will draw on our understanding of acoustics to implement all of the components in a radically new approach. In particular, we will draw on ultrasound beam-forming and manipulation techniques to create acoustic forces that can levitate particles and to provide directional audio cues. By using a phased array of ultrasound transducers, the team will create levitating objects that can be individually controlled and at the same time create tactile feedback when the user manipulates these levitating objects. We will then demonstrate that the levitating atoms can each become sound sources through the use of parametric audio with our ultrasound array serving as the carrier of the audible sound. We will visually project onto the objects to create a rich multimodal display floating in space.
Deltagare
Jens Ahrens (kontakt)
Chalmers, Arkitektur och samhällsbyggnadsteknik, Teknisk akustik
Carl Andersson
Chalmers, Arkitektur och samhällsbyggnadsteknik, Teknisk akustik
Samarbetspartners
Aarhus Universitet
Aarhus, Denmark
Ultrahaptics Limited
Bristol, United Kingdom
University of Glasgow
Glasgow, United Kingdom
University of Sussex
Brighton, United Kingdom
Universität Bayreuth
Bayreuth, Germany
Finansiering
Europeiska kommissionen (EU)
Projekt-id: EC/H2020/737087
Finansierar Chalmers deltagande under 2017–2020
Relaterade styrkeområden och infrastruktur
Informations- och kommunikationsteknik
Styrkeområden
Innovation och entreprenörskap
Drivkrafter