Sound localisation deals with how and why we can locate sound sources in our spatial environment. Sound spatialisation defines how sound is distributed in this environment. Several acoustic and psychoacoustic phenomena are involved in sound localisation and spatialisation. The importance of these phenomena becomes apparent when endeavouring to recreate and emulate auditory spatial events using computers
Sound localization is the process used by humans to locate sound in space. In order to locate these ...
Sound localization in 3D space relies on a variety of auditory cues resulting from the encoding prov...
The development of a spatial audio ear trainer has been proposed and investigated. A review of the r...
Sound localisation deals with how and why we can locate sound sources in our spatial environment. S...
Despite the near ubiquitous availability of interfaces for spatial interaction, standard audio spati...
Beginning with a brief historical overview of spatial audio and music practices, this chapter looks ...
A simulation environment is used for the perceptual evaluation of sound pickup and reproduction tech...
This paper describes research to inform the production of spatial audio that consolidates knowledge ...
Hearing ability declines with age. Specifically, it has been shown that sound localization ability b...
When a sound source is spatialized over loudspeakers, the source undergoes a series of transformatio...
This thesis describes the methodology that has been followed for the implementation of a biologicall...
Audio is a crucial aspect to bear in mind when designing virtual reality applications, as it can add...
Simulating propagation of sound and audio rendering can improve the sense of realism and the immersi...
ABSTRACT As objects vibrate, they cause changes in the air pressure, which our ears perceive as sou...
The field of real time sound spatizalization is recently receiving much attention, as suggested by t...
Sound localization is the process used by humans to locate sound in space. In order to locate these ...
Sound localization in 3D space relies on a variety of auditory cues resulting from the encoding prov...
The development of a spatial audio ear trainer has been proposed and investigated. A review of the r...
Sound localisation deals with how and why we can locate sound sources in our spatial environment. S...
Despite the near ubiquitous availability of interfaces for spatial interaction, standard audio spati...
Beginning with a brief historical overview of spatial audio and music practices, this chapter looks ...
A simulation environment is used for the perceptual evaluation of sound pickup and reproduction tech...
This paper describes research to inform the production of spatial audio that consolidates knowledge ...
Hearing ability declines with age. Specifically, it has been shown that sound localization ability b...
When a sound source is spatialized over loudspeakers, the source undergoes a series of transformatio...
This thesis describes the methodology that has been followed for the implementation of a biologicall...
Audio is a crucial aspect to bear in mind when designing virtual reality applications, as it can add...
Simulating propagation of sound and audio rendering can improve the sense of realism and the immersi...
ABSTRACT As objects vibrate, they cause changes in the air pressure, which our ears perceive as sou...
The field of real time sound spatizalization is recently receiving much attention, as suggested by t...
Sound localization is the process used by humans to locate sound in space. In order to locate these ...
Sound localization in 3D space relies on a variety of auditory cues resulting from the encoding prov...
The development of a spatial audio ear trainer has been proposed and investigated. A review of the r...