Add to ORKGMeasuring and understanding spatial hearing is a fundamental step to create effective virtual auditory displays (VADs). The evaluation of such auralization systems often requires psychoacoustic experiments. This process can be time consuming and error prone, resulting in a bottleneck for the evaluation complexity. In this work we evaluated a probabilistic auditory model for sound localization intended as a tool to assess VAD's abilities to provide static sound-localization cues to listeners. The outcome of the model, compared with actual results of psychoacoustic experiments, shows the advantages and limitations of this systematic evaluation
Abstract The purpose of this project is to desig a systematical method in order to measure human dir...
This study investigates the relationship between auditory localization accuracy in the horizontal pl...
<div><p>The auditory Brain-Computer Interface (BCI) using electroencephalograms (EEG) is a subject o...
Virtual acoustic environments (VAEs) are an excellent tool in hearing research, especially in the co...
This paper describes the theoretical fundamentals and the preliminary results of the implementation ...
This paper aims at comparing and reproducing the predictions of two public available computational a...
This thesis describes the methodology that has been followed for the implementation of a biologicall...
Humans estimate sound-source directions by combining prior beliefs with sensory evidence. Prior beli...
Audio systems and recordings are optimized for listening at the ’sweet spot’, but how well do they w...
In this paper, a model of human sound localisation is described, and its prediction is compared to t...
The integration of the auditory modality in virtual reality environments is known to promote the sen...
This research focuses on sound localization experiments in which subjects report the position of an ...
This paper addresses the design of virtual auditory spaces that optimize the localization of sound s...
In this article we present the results of localization experiment accomplished in a real virtual roo...
To achieve accurate spatial auditory perception, subjects typically require personal head-related tr...
Abstract The purpose of this project is to desig a systematical method in order to measure human dir...
This study investigates the relationship between auditory localization accuracy in the horizontal pl...
<div><p>The auditory Brain-Computer Interface (BCI) using electroencephalograms (EEG) is a subject o...
Virtual acoustic environments (VAEs) are an excellent tool in hearing research, especially in the co...
This paper describes the theoretical fundamentals and the preliminary results of the implementation ...
This paper aims at comparing and reproducing the predictions of two public available computational a...
This thesis describes the methodology that has been followed for the implementation of a biologicall...
Humans estimate sound-source directions by combining prior beliefs with sensory evidence. Prior beli...
Audio systems and recordings are optimized for listening at the ’sweet spot’, but how well do they w...
In this paper, a model of human sound localisation is described, and its prediction is compared to t...
The integration of the auditory modality in virtual reality environments is known to promote the sen...
This research focuses on sound localization experiments in which subjects report the position of an ...
This paper addresses the design of virtual auditory spaces that optimize the localization of sound s...
In this article we present the results of localization experiment accomplished in a real virtual roo...
To achieve accurate spatial auditory perception, subjects typically require personal head-related tr...
Abstract The purpose of this project is to desig a systematical method in order to measure human dir...
This study investigates the relationship between auditory localization accuracy in the horizontal pl...
<div><p>The auditory Brain-Computer Interface (BCI) using electroencephalograms (EEG) is a subject o...