Add to ORKGComputational auditory models that predict the perceived location of sound sources in terms of azimuth are already available, yet little has been done to predict perceived elevation. Interaural time and level differences, the primary cues in horizontal localisation, do not resolve source elevation, resulting in the ‘Cone of Confusion’. In natural listening, listeners can make head movements to resolve such confusion. To mimic the dynamic cues provided by head movements, a multiple microphone sphere was created, and a hearing model was developed to predict source elevation from the signals captured by the sphere. The prototype sphere and hearing model proved effective in both horizontal and vertical localisation. The next stage of this resea...
Listening experiments were conducted to investigate the relationship between loudspeaker locations i...
Yaw movements are the most frequently occurring and largest head movements a listener makes when loc...
Sound localization in the vertical plane is thought to depend on spectral cues induced by the head-r...
Computational auditory models that predict the perceived location of sound sources in terms of azimu...
A multiple-microphone-sphere-based localisation model has been developed that predicts source locati...
A multiple-microphone-sphere-based localisation model has been developed that predicts source locati...
This research introduces a novel technique for capturing binaural signals for objective evaluation o...
Research was undertaken to determine the nature of head movements made when judging spatial impressi...
This research aims ultimately to develop objective hearing models that can predict the attributes of...
Human sound localization relies on binaural difference cues for sound-source azimuth and pinna-relat...
This research incorporates the nature of head movement made in listening activities, into the develo...
Head movement has been shown to significantly improve localisation response accuracy in elevation. I...
Presented at the 22nd International Conference on Auditory Display (ICAD-2016)Preliminary results fr...
In order to take head movement into account in objective evaluation of perceived spatial impression ...
In order to take head movement into account in objective evaluation of perceived spatial impression ...
Listening experiments were conducted to investigate the relationship between loudspeaker locations i...
Yaw movements are the most frequently occurring and largest head movements a listener makes when loc...
Sound localization in the vertical plane is thought to depend on spectral cues induced by the head-r...
Computational auditory models that predict the perceived location of sound sources in terms of azimu...
A multiple-microphone-sphere-based localisation model has been developed that predicts source locati...
A multiple-microphone-sphere-based localisation model has been developed that predicts source locati...
This research introduces a novel technique for capturing binaural signals for objective evaluation o...
Research was undertaken to determine the nature of head movements made when judging spatial impressi...
This research aims ultimately to develop objective hearing models that can predict the attributes of...
Human sound localization relies on binaural difference cues for sound-source azimuth and pinna-relat...
This research incorporates the nature of head movement made in listening activities, into the develo...
Head movement has been shown to significantly improve localisation response accuracy in elevation. I...
Presented at the 22nd International Conference on Auditory Display (ICAD-2016)Preliminary results fr...
In order to take head movement into account in objective evaluation of perceived spatial impression ...
In order to take head movement into account in objective evaluation of perceived spatial impression ...
Listening experiments were conducted to investigate the relationship between loudspeaker locations i...
Yaw movements are the most frequently occurring and largest head movements a listener makes when loc...
Sound localization in the vertical plane is thought to depend on spectral cues induced by the head-r...