Ear terminals
Edge diffraction
3Daudio
Audio over IP
Music instrument modelling
Singing risers
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Intelligent ear terminals are developed for speech communication in extreme conditions. The modelling of acoustic properties as well as developing techniques for speech enhancement are studied.
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Computer modelling in room acoustics can benefit from including diffraction. This project aims at finding efficient, accurate methods that can be used in fast real-time applications as well as ultimately accurate calculations.
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3D audio can be represented and reproduced using scaleable formats such as Ambisonics. This project studies such formats.
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Audio transmission over IP networks offers possibilities and challenges. This project studies the perceived quality of two-way interaction over networks, techniques for audio transmission, and technqiues for representing and reproducing 3D audio.
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Music instruments are complex sound sources, with a wide variety of sound generation and radiation mechanisms. This project applies numerical models such as FEM to study brass instruments and other instruments.
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This project studies the noise generation in corrugated pipes with a flow
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Last change 3-11-2006 by Peter Svensson
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