Add to ORKGAn auditory neuron can preserve the temporal fine structure of a low-frequency tone by phase-locking its response to the stimulus. Apart from sound localization, however, much about the role of this temporal information for signal processing in the brain remains unknown. Through psychoacoustic studies we provide direct evidence that humans employ temporal fine structure to discriminate between frequencies. To this end we construct tones that are based on a single frequency but in which, through the concatenation of wavelets, the phase changes randomly every few cycles. We then test the frequency discrimination of these phase-changing tones, of control tones without phase changes, and of short tones that consist of a single wavelet. For carr...
Despite the structural differences of the middle and inner ears, the latency pattern in auditory ner...
Human ability to perceive differences in sounds due to the modification of the phase spectrum is stu...
Humans are able to perceive small difference of sound frequency but it is still unknown how the diff...
Abstract The relative role of place and temporal mechanisms in auditory frequency discrimination was...
Temporal fine structure (TFS) is assumed to play an important role in both pitch and speech processi...
The relative importance of neural temporal and place coding in auditory perception is still a matter...
We present a model for tone-in-noise detection at low frequencies that includes a physiologically re...
Temporal coding of sensory information can arise through exogenous, stimulus-locked temporal pattern...
Abstract Envelope (E) and temporal fine structure (TFS) are important features of acoustic signals a...
Acknowledgements: We thank Hedwig Gockel for advice about statistics and helpful comments on an earl...
Frequency tuning and phase-locking are two fundamental properties generated in the cochlea, enabling...
The importance of temporal information versus place information in frequency analysis by the ear is ...
Human electrical imaging studies have shown that slow oscillatory (theta-band) activity in auditory ...
During the past two decades there has been an increasing interest in how the auditory system extract...
Frequency tuning and phase-locking are two fundamental properties generated in the cochlea, enabling...
Despite the structural differences of the middle and inner ears, the latency pattern in auditory ner...
Human ability to perceive differences in sounds due to the modification of the phase spectrum is stu...
Humans are able to perceive small difference of sound frequency but it is still unknown how the diff...
Abstract The relative role of place and temporal mechanisms in auditory frequency discrimination was...
Temporal fine structure (TFS) is assumed to play an important role in both pitch and speech processi...
The relative importance of neural temporal and place coding in auditory perception is still a matter...
We present a model for tone-in-noise detection at low frequencies that includes a physiologically re...
Temporal coding of sensory information can arise through exogenous, stimulus-locked temporal pattern...
Abstract Envelope (E) and temporal fine structure (TFS) are important features of acoustic signals a...
Acknowledgements: We thank Hedwig Gockel for advice about statistics and helpful comments on an earl...
Frequency tuning and phase-locking are two fundamental properties generated in the cochlea, enabling...
The importance of temporal information versus place information in frequency analysis by the ear is ...
Human electrical imaging studies have shown that slow oscillatory (theta-band) activity in auditory ...
During the past two decades there has been an increasing interest in how the auditory system extract...
Frequency tuning and phase-locking are two fundamental properties generated in the cochlea, enabling...
Despite the structural differences of the middle and inner ears, the latency pattern in auditory ner...
Human ability to perceive differences in sounds due to the modification of the phase spectrum is stu...
Humans are able to perceive small difference of sound frequency but it is still unknown how the diff...