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Resumen:
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This master thesis is devoted to study the acoustic and psycho¿acoustic characteristics of
binaural reproductions on speaker line arrays. The main goal is to study the beamforming theory
and its validation by comparing ...[+]
This master thesis is devoted to study the acoustic and psycho¿acoustic characteristics of
binaural reproductions on speaker line arrays. The main goal is to study the beamforming theory
and its validation by comparing with measured results. In addition, some applications for line
speaker arrays are presented.
Beamforming and its applications have been investigated in recent decades. However, the rapid
growth of technology requires smaller speakers in order to install them in devices like flat
televisions, laptops, cell¿phones or electronic tables. Therefore, this thesis work will focus in
small size speakers and low power applications suitable for domestic and portable audio
reproduction.
With transaural audio reproduction it is possible to provide a virtual environment where the
source locations are perceived at positions where no physical sources exist. Headphones can be
used to reproduce binaural signals due to the low crosstalk they offer. Even thought, in some
applications for convenience loudspeakers are preferred, undesired signal arrives to the
contralateral ear. To improve the crosstalk and sensation of separated channels this thesis
presents the using of line arrays for binaural audio reproduction. Psychoacoustic cues to guess
where the sound source is located or Head Related Transfer Functions are used in combination
with beamformers to obtain trans¿aural audio reproduction.
In order to design and simulate line arrays Graphical User Interfaces will be presented.
Programmed by Matlab, they offer a tool to design and study the beamformers. By introducing
the characteristics of the line array, different directivity representations and useful parameters
will be given. It also allows the simulation by using real speaker directivities previously measured.
To validate the simulation of line arrays, different measurements will be carried out in an
anechoic chamber by using a turn table controller. This thesis describes an audio system
composed of signal processor, amplifiers and speaker line array that can be used to generate
directional steerable beams and transaural audio reproduction. In order to amplify the signal to
the speakers, the design and construction of an eight¿channel amplifier will be explained in detail.
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