Vibrating shapes : Design and evolution of a spatial augmented reality interface for actuated instruments - CRISTAL-MINT
Conference Papers Year : 2022

Vibrating shapes : Design and evolution of a spatial augmented reality interface for actuated instruments

Abstract

In this paper we propose a Spatial Augmented Reality interface for actuated acoustic instruments with active vibration control. We adopt a performance-led research approach to design augmentations throughout multiple residences. The resulting system enables two musicians to improvise with four augmented instruments through virtual shapes distributed in their peripheral space: two 12-string guitars and 1 drum kit actuated with surface speakers and a trumpet attached to an air compressor. Using ethnographic methods, we document the evolution of the augmentations and conduct a thematic analysis to shine a light on the collaborative and iterative design process. In particular, we provide insights on the opportunities brought by Spatial AR and on the role of improvisation.
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Dates and versions

hal-03712843 , version 1 (04-07-2022)

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Cagan Arslan, Florent Berthaut, Anthony Beuchey, Paul Cambourian, Arthur Paté. Vibrating shapes : Design and evolution of a spatial augmented reality interface for actuated instruments. New Interfaces for Musical Expression, Jun 2022, Auckland, New Zealand. ⟨10.21428/92fbeb44.c28dd323⟩. ⟨hal-03712843⟩
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