The human brain effortlessly solves the complex computational task of sound localization using a mixture of spatial cues. How the brain performs this task in naturalistic listening environments (e.g. with reverberation) is not well understood. In the present paper, we build on the success of deep neural networks at solving complex and high-dimensional problems [1] to develop goal-driven, neurobiological-inspired convolutional neural network (CNN) models of human spatial hearing. After training, we visualize and quantify feature representations in intermediate layers to gain insights into the representational mechanisms underlying sound location encoding in CNNs. Our results show that neurobiological-inspired CNN models trained on real-life ...
One of the key capabilities of the human sense of hearing is to determine the direction from which a...
Human sound localization is an important computation performed by the brain. Models of sound localiz...
Despite there being clear evidence for attentional effects in biological spatial hearing, relatively...
The human brain effortlessly solves the complex computational task of sound localization using a mix...
Despite there being a clear evidence for top–down (e.g., attentional) effects in biological spatial ...
The advent of mixed reality consumer products brings about a pressing need to develop and improve sp...
We propose a biologically inspired binaural sound localization system using a deep convolutional neu...
Humans and other animals use spatial hearing to rapidly localize events in the environment. However,...
This paper examines the role of biological constraints in the human audi-tory localization process. ...
A novel end-to-end binaural sound localisation approach is proposed which estimates the azimuth of a...
<div><p>In mammalian auditory cortex, sound source position is represented by a population of broadl...
The major functions of the auditory system are recognition (what is the sound) and localization (whe...
The major functions of the auditory system are recognition (what is the sound) and localization (wh...
It has always intrigued man as to how the human body performs so many complicated functions with the...
Spatial hearing allows the localization of sounds in complex acoustic environments. There is conside...
One of the key capabilities of the human sense of hearing is to determine the direction from which a...
Human sound localization is an important computation performed by the brain. Models of sound localiz...
Despite there being clear evidence for attentional effects in biological spatial hearing, relatively...
The human brain effortlessly solves the complex computational task of sound localization using a mix...
Despite there being a clear evidence for top–down (e.g., attentional) effects in biological spatial ...
The advent of mixed reality consumer products brings about a pressing need to develop and improve sp...
We propose a biologically inspired binaural sound localization system using a deep convolutional neu...
Humans and other animals use spatial hearing to rapidly localize events in the environment. However,...
This paper examines the role of biological constraints in the human audi-tory localization process. ...
A novel end-to-end binaural sound localisation approach is proposed which estimates the azimuth of a...
<div><p>In mammalian auditory cortex, sound source position is represented by a population of broadl...
The major functions of the auditory system are recognition (what is the sound) and localization (whe...
The major functions of the auditory system are recognition (what is the sound) and localization (wh...
It has always intrigued man as to how the human body performs so many complicated functions with the...
Spatial hearing allows the localization of sounds in complex acoustic environments. There is conside...
One of the key capabilities of the human sense of hearing is to determine the direction from which a...
Human sound localization is an important computation performed by the brain. Models of sound localiz...
Despite there being clear evidence for attentional effects in biological spatial hearing, relatively...