Acousto-optic holography

Verburg, Samuel A.; Williams, Earl G.; Fernández-Grande, Efrén

doi:10.1121/10.0016627

Cited by 6 publications

(1 citation statement)

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“…One can observe the direct field at 5.47 ms, two reflections from the ground and the opposing wall at 8.67 ms, and their interference at 9.96 ms. To the authors knowledge, it is the first time that an acoustic field has been measured volumetrically and remotely in such scale. This sensing technique has also been adapted to near-field acoustic holography [8] and sound field analysis in rooms [9].…”

Section: Acousto-optic Sensingmentioning

confidence: 99%

Sound field reconstruction: towards large-scale spatial sensing

Fernandez-Grande,

Verburg,

Karakonstantis

2024

Proceedings of the 10th Convention of the European Acoustics Association Forum Acusticum 2023

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Over the last couple of decades, sound field analysis and reconstruction methods have enabled us to observe and better understand diverse acoustic phenomena, from jetnoise to the sound of historical violins. In a broad sense, sound field reconstruction methods consist of capturing the spatial properties of sound, in order to visualize, analyze, reproduce, or manipulate the sound field in various ways. Fueled by advances in instrumentation and signal processing, these methods have had a profound impact in the field of acoustics and have been widely adopted in areas like vibro-acoustics, spatial audio, room acoustics, materials and electroacoustics -among others. In this talk we discuss new approaches for capturing and reconstructing sound fields in space, motivated by some of the longstanding challenges in the field. Specifically, we consider: 1) novel sensing methods, with a focus on optical remote sensing and the acousto-optic interaction, to measure sound using light, 2) physical models for largescale sound field visualization/reconstruction and 3) Deep Learning approaches for augmenting conventional acoustic measurements. Finally, we share an outlook of this multifaceted and increasingly relevant domain of acoustics.

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Section: Acousto-optic Sensingmentioning

confidence: 99%