Human perception of sound arises from the transmission of action-potentials (APs) through a neural network consisting of the auditory nerve and elements of the brain. Analysis of the response properties of individual neurons provides information regarding how features of sounds are coded in their firing patterns, and hints as to how higher brain centres may decode these neural response patterns to produce a perception of sound. Auditory neurons differ in the frequency of sound to which they respond most actively (their characteristic frequency), in their spontaneous (zero input) response, and also in their onset and saturation thresholds. Experiments have shown that neurons with low spontaneous rates show enhanced responses to the envelopes...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
We develop a computational modeling framework to study information processing in the auditory pathwa...
Sensory neurons encode environmental stimuli by transmitting trains of nearly identical all-or-none ...
Human perception of sound arises from the transmission of action-potentials (APs) through a neural n...
lsi mailmedotounimelbeduau Human perception of sound arises from the transmission of actionpotential...
AbstractRecent results have provided new insights into the complexity of sound frequency representat...
The ability to discriminate the fundamental frequency (F0) of complex tones in background noise is a...
Recent results have provided new insights into the complexity of sound frequency representation in t...
The relation between sensory input and neural activity is often complex. In peripheral neurons, suc...
The nature of the neural codes for pitch and loudness, two basic auditory attributes, has been a key...
The mammalian brain is able to recognize natural sounds in the presence of acoustic uncertainties su...
The human auditory system perceives sound in a much different manner than how sound is measured by m...
Auditory neurons must represent accurately a wide range of sound levels using firing rates that vary...
We rst demonstrate how to quantify the information conveyed in temporal ring patterns of neurons. We...
Neurons in auditory cortex are selective for the frequency content of acoustical stimuli. Classicall...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
We develop a computational modeling framework to study information processing in the auditory pathwa...
Sensory neurons encode environmental stimuli by transmitting trains of nearly identical all-or-none ...
Human perception of sound arises from the transmission of action-potentials (APs) through a neural n...
lsi mailmedotounimelbeduau Human perception of sound arises from the transmission of actionpotential...
AbstractRecent results have provided new insights into the complexity of sound frequency representat...
The ability to discriminate the fundamental frequency (F0) of complex tones in background noise is a...
Recent results have provided new insights into the complexity of sound frequency representation in t...
The relation between sensory input and neural activity is often complex. In peripheral neurons, suc...
The nature of the neural codes for pitch and loudness, two basic auditory attributes, has been a key...
The mammalian brain is able to recognize natural sounds in the presence of acoustic uncertainties su...
The human auditory system perceives sound in a much different manner than how sound is measured by m...
Auditory neurons must represent accurately a wide range of sound levels using firing rates that vary...
We rst demonstrate how to quantify the information conveyed in temporal ring patterns of neurons. We...
Neurons in auditory cortex are selective for the frequency content of acoustical stimuli. Classicall...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
We develop a computational modeling framework to study information processing in the auditory pathwa...
Sensory neurons encode environmental stimuli by transmitting trains of nearly identical all-or-none ...