The localization accuracy of subjects using headphones was determined as a function of the duration of the head-related impulse response. Unlike previous studies, there was a gradual decrease in accuracy starting at 10 ms and becoming drastically worse at about 0.5 ms. Durations of more than 10 ms result in performance indistinguishable from free-field localization. Shorter durations are equivalent to smoothing the frequency response and thereby removing the fine detail unique to each subject's own ears
Sound source localization is critical to animal survival and for identification of auditory objects....
The influence of head misalignments on the performance of binaural reproduction systems through loud...
In an anechoic chamber normal-hearing subjects performed a localization task in the frontal horizont...
In a virtual acoustic environment, the total system latency (TSL) refers to the time elapsed from th...
Virtual Auditory Display (VAD) technology is expected to en-able the development of new communicatio...
To achieve accurate spatial auditory perception, subjects typically require personal head-related tr...
Hearing Protection Devices (HPDs) can protect the ear against loud potentially damaging sounds while...
In this report various techniques used to estimate head related impulse responses are compared. The ...
High quality headphones can generate a realistic sound immersion reproducing binaural recordings. Ho...
The localization of sounds in the vertical plane (elevation) deteriorates for short-duration wideban...
We describe a virtual sound display built around a 12 MHz 80286 microcomputer and special purpose an...
This thesis concerns the potential use of auditory virtual reality (A VR) in safety-critical situati...
When validating systems that use headphones to synthesize virtual sound sources, a directcomparison ...
The ability to correctly localize sounds is important for general awareness of the auditory scene an...
Sound source localization is critical to animal survival and for identification of auditory objects....
Sound source localization is critical to animal survival and for identification of auditory objects....
The influence of head misalignments on the performance of binaural reproduction systems through loud...
In an anechoic chamber normal-hearing subjects performed a localization task in the frontal horizont...
In a virtual acoustic environment, the total system latency (TSL) refers to the time elapsed from th...
Virtual Auditory Display (VAD) technology is expected to en-able the development of new communicatio...
To achieve accurate spatial auditory perception, subjects typically require personal head-related tr...
Hearing Protection Devices (HPDs) can protect the ear against loud potentially damaging sounds while...
In this report various techniques used to estimate head related impulse responses are compared. The ...
High quality headphones can generate a realistic sound immersion reproducing binaural recordings. Ho...
The localization of sounds in the vertical plane (elevation) deteriorates for short-duration wideban...
We describe a virtual sound display built around a 12 MHz 80286 microcomputer and special purpose an...
This thesis concerns the potential use of auditory virtual reality (A VR) in safety-critical situati...
When validating systems that use headphones to synthesize virtual sound sources, a directcomparison ...
The ability to correctly localize sounds is important for general awareness of the auditory scene an...
Sound source localization is critical to animal survival and for identification of auditory objects....
Sound source localization is critical to animal survival and for identification of auditory objects....
The influence of head misalignments on the performance of binaural reproduction systems through loud...
In an anechoic chamber normal-hearing subjects performed a localization task in the frontal horizont...