We have developed a sparse mathematical representation of speech that minimizes the number of active model neurons needed to represent typical speech sounds. The model learns several well-known acoustic features of speech such as harmonic stacks, formants, onsets and terminations, but we also find more exotic structures in the spectrogram representation of sound such as localized checkerboard patterns and frequency-modulated excitatory subregions flanked by suppressive sidebands. Moreover, several of these novel features resemble neuronal receptive fields reported in the Inferior Colliculus (IC), as well as auditory thalamus and cortex, and our model neurons exhibit the same tradeoff in spectrotemporal resolution as has been observed in IC....
Sound information is decomposed into spectro-temporal components at the cochlea and distributed into...
How do cortical neurons represent the acoustic environment? This question is often addressed by prob...
How complex natural sounds are represented by the main converging center of the auditory midbrain, t...
<div><p>We have developed a sparse mathematical representation of speech that minimizes the number o...
I have developed a sparse mathematical representation of speech that minimizes the number of active ...
Recent studies of biological auditory processing have revealed that sophisticated spectrotemporal a...
The auditory pathway consists of multiple stages, from the cochlear nucleus to the auditory cortex. ...
The auditory pathway consists of multiple stages, from the cochlear nucleus to the auditory cortex. ...
A central hypothesis in sensory coding suggests that auditory neurons are optimized to represent sou...
<p>Complete and overcomplete sparse coding models trained on spectrograms of speech predict Inferior...
<p>on spectrograms of speech predicts several classes of broadband spectro-temporal receptive field ...
Interaction with the world requires an organism to transform sensory signals into representations in...
Contains fulltext : 75857.pdf (publisher's version ) (Open Access)Because of its c...
Because of its central position in the ascending auditory pathway, its large number of converging au...
Contains fulltext : 75855.pdf (publisher's version ) (Open Access)Because of its c...
Sound information is decomposed into spectro-temporal components at the cochlea and distributed into...
How do cortical neurons represent the acoustic environment? This question is often addressed by prob...
How complex natural sounds are represented by the main converging center of the auditory midbrain, t...
<div><p>We have developed a sparse mathematical representation of speech that minimizes the number o...
I have developed a sparse mathematical representation of speech that minimizes the number of active ...
Recent studies of biological auditory processing have revealed that sophisticated spectrotemporal a...
The auditory pathway consists of multiple stages, from the cochlear nucleus to the auditory cortex. ...
The auditory pathway consists of multiple stages, from the cochlear nucleus to the auditory cortex. ...
A central hypothesis in sensory coding suggests that auditory neurons are optimized to represent sou...
<p>Complete and overcomplete sparse coding models trained on spectrograms of speech predict Inferior...
<p>on spectrograms of speech predicts several classes of broadband spectro-temporal receptive field ...
Interaction with the world requires an organism to transform sensory signals into representations in...
Contains fulltext : 75857.pdf (publisher's version ) (Open Access)Because of its c...
Because of its central position in the ascending auditory pathway, its large number of converging au...
Contains fulltext : 75855.pdf (publisher's version ) (Open Access)Because of its c...
Sound information is decomposed into spectro-temporal components at the cochlea and distributed into...
How do cortical neurons represent the acoustic environment? This question is often addressed by prob...
How complex natural sounds are represented by the main converging center of the auditory midbrain, t...