Add to ORKGWe present a model for tone-in-noise detection at low frequencies that includes a physiologically realistic mech-anism for processing the information in neural discharge times. The proposed model exploits the frequency-dependent phase properties of the tuned filters in the auditory periphery and uses cross-auditory-nerve-fiber coincidence detection to extract temporal cues. Information in the responses of model coincidence detectors is quantified and compared to human performance in a masked detection task. The responses of some cross-frequency coincidence detectors are reduced when a low-frequency tone is added to a noise because of phase differences between fibers tuned to different frequencies. We refer to this response reduction as “pha...
A psychoacoustical phenomenon related to the ability of the auditory system to compare information a...
Oscillatory activity in cortical networks is believed to index the neural mechanism that underlie pe...
edge detection: a neural model for physiological and psychoacoustical responses to amplitude transie...
This talk will describe the phase-opponency (PO) model (Carney et al., 2001a) for detection of tones...
This dissertation combines psychophysical experiments with computational modeling efforts in order t...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
This and the accompanying paper [Dau et al., J. Acoust. Soc. Am. 99, – (1996)] describe a quantitati...
The ability of listeners with hearing loss to understand speech in noise is severely degraded compar...
Most present-day binaural models make use of coincidence detectors following an internal delay, so-c...
The importance of temporal information versus place information in frequency analysis by the ear is ...
This paper presents a quantitative model for describing data from modulation-detection and modulatio...
An auditory neuron can preserve the temporal fine structure of a low-frequency tone by phase-locking...
This paper describes a quantitative model for signal processing in the auditory system. The model co...
This article investigates how the amplitude and phase characteristics of the inner ear influence the...
A model of the effective processing of interaural timing disparities in the human auditory system is...
A psychoacoustical phenomenon related to the ability of the auditory system to compare information a...
Oscillatory activity in cortical networks is believed to index the neural mechanism that underlie pe...
edge detection: a neural model for physiological and psychoacoustical responses to amplitude transie...
This talk will describe the phase-opponency (PO) model (Carney et al., 2001a) for detection of tones...
This dissertation combines psychophysical experiments with computational modeling efforts in order t...
Thesis (Ph.D.)--Boston UniversityPLEASE NOTE: Boston University Libraries did not receive an Authori...
This and the accompanying paper [Dau et al., J. Acoust. Soc. Am. 99, – (1996)] describe a quantitati...
The ability of listeners with hearing loss to understand speech in noise is severely degraded compar...
Most present-day binaural models make use of coincidence detectors following an internal delay, so-c...
The importance of temporal information versus place information in frequency analysis by the ear is ...
This paper presents a quantitative model for describing data from modulation-detection and modulatio...
An auditory neuron can preserve the temporal fine structure of a low-frequency tone by phase-locking...
This paper describes a quantitative model for signal processing in the auditory system. The model co...
This article investigates how the amplitude and phase characteristics of the inner ear influence the...
A model of the effective processing of interaural timing disparities in the human auditory system is...
A psychoacoustical phenomenon related to the ability of the auditory system to compare information a...
Oscillatory activity in cortical networks is believed to index the neural mechanism that underlie pe...
edge detection: a neural model for physiological and psychoacoustical responses to amplitude transie...