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
A novel system of computer algorithms is formulated to perform onset-guided source localisation usin...
Loudspeaker-based spatial audio systems are often designed with the aim to create an auditory event ...
The major functions of the auditory system are recognition (what is the sound) and localization (whe...
Sound localisation deals with how and why we can locate sound sources in our spatial environment. S...
There are a variety of potential uses for interactive spatial sound in human-machine interfaces, but...
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 ...
When a sound source is spatialized over loudspeakers, the source undergoes a series of transformatio...
The field of spatial hearing has exploded in the decade or so since Jens Blauert's classic work on a...
Sound localization is the process used by humans to locate sound in space. In order to locate these ...
International audienceIn virtual auditory environments, sound generation is typically based on a two...
Sound localization in 3D space relies on a variety of auditory cues resulting from the encoding prov...
In this paper a psychoacoustic sound field synthesis (pSFS) system for musical applications is prese...
There are a variety of potential uses for interactive spatial sound in human-computer interfaces, bu...
The major functions of the auditory system are recognition (what is the sound) and localization (wh...
A novel system of computer algorithms is formulated to perform onset-guided source localisation usin...
Loudspeaker-based spatial audio systems are often designed with the aim to create an auditory event ...
The major functions of the auditory system are recognition (what is the sound) and localization (whe...
Sound localisation deals with how and why we can locate sound sources in our spatial environment. S...
There are a variety of potential uses for interactive spatial sound in human-machine interfaces, but...
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 ...
When a sound source is spatialized over loudspeakers, the source undergoes a series of transformatio...
The field of spatial hearing has exploded in the decade or so since Jens Blauert's classic work on a...
Sound localization is the process used by humans to locate sound in space. In order to locate these ...
International audienceIn virtual auditory environments, sound generation is typically based on a two...
Sound localization in 3D space relies on a variety of auditory cues resulting from the encoding prov...
In this paper a psychoacoustic sound field synthesis (pSFS) system for musical applications is prese...
There are a variety of potential uses for interactive spatial sound in human-computer interfaces, bu...
The major functions of the auditory system are recognition (what is the sound) and localization (wh...
A novel system of computer algorithms is formulated to perform onset-guided source localisation usin...
Loudspeaker-based spatial audio systems are often designed with the aim to create an auditory event ...
The major functions of the auditory system are recognition (what is the sound) and localization (whe...