Tobias Overath
Tobias Overath
Verified email at - Homepage
Cited by
Cited by
The cortical analysis of speech-specific temporal structure revealed by responses to sound quilts
T Overath, JH McDermott, JM Zarate, D Poeppel
Nature neuroscience 18 (6), 903-911, 2015
Encoding of spectral correlation over time in auditory cortex
T Overath, S Kumar, K von Kriegstein, TD Griffiths
Journal of Neuroscience 28 (49), 13268-13273, 2008
An information theoretic characterisation of auditory encoding
T Overath, R Cusack, S Kumar, K Von Kriegstein, JD Warren, M Grube, ...
PLoS biology 5 (11), e288, 2007
fMRI evidence for a cortical hierarchy of pitch pattern processing
L Stewart, T Overath, JD Warren, JM Foxton, TD Griffiths
PLoS One 3 (1), e1470, 2008
Sensitivity to temporal modulation rate and spectral bandwidth in the human auditory system: fMRI evidence
T Overath, Y Zhang, DH Sanes, D Poeppel
Journal of neurophysiology 107 (8), 2042-2056, 2012
Cortical mechanisms for the segregation and representation of acoustic textures
T Overath, S Kumar, L Stewart, K von Kriegstein, R Cusack, A Rees, ...
Journal of Neuroscience 30 (6), 2070-2076, 2010
Gamma band pitch responses in human auditory cortex measured with magnetoencephalography
W Sedley, S Teki, S Kumar, T Overath, GR Barnes, TD Griffiths
Neuroimage 59 (2), 1904-1911, 2012
The human auditory cortex
D Poeppel, T Overath, AN Popper, RR Fay
Springer Science & Business Media, 2012
Auditory object analysis
TD Griffiths, C Micheyl, T Overath
The human auditory cortex, 199-223, 2012
The human auditory cortex
AL Giraud, D Poeppel
Springer Verlag,, 2012
The distribution and nature of responses to broadband sounds associated with pitch in the macaque auditory cortex
Y Kikuchi, S Kumar, S Baumann, T Overath, PE Gander, W Sedley, ...
Cortex 120, 340-352, 2019
An Objective Approach Toward Understanding Auditory Processing Disorder
AR Maggu, T Overath
American Journal of Audiology, 1-6, 2021
An analytical framework of tonal and rhythmic hierarchy in natural music using the multivariate temporal response function
J Leahy, SG Kim, J Wan, T Overath
Frontiers in Neuroscience 15, 665767, 2021
Introduction: Why human auditory cortex?
D Poeppel, T Overath
The human auditory cortex, 1-7, 2012
From acoustic to linguistic analysis of temporal speech structure: Acousto-linguistic transformation during speech perception using speech quilts
T Overath, JH Paik
Neuroimage 235, 117887, 2021
MEG correlates of temporal regularity relevant to pitch perception in human auditory cortex
SG Kim, T Overath, W Sedley, S Kumar, S Teki, Y Kikuchi, R Patterson, ...
NeuroImage 249, 118879, 2022
The neural processing of phonemes is shaped by linguistic analysis
T Overath, JC Lee
Proceedings of the International Symposium on Auditory and Audiological …, 2017
Dynamics underlying auditory‐object‐boundary detection in primary auditory cortex
P Dheerendra, N Barascud, S Kumar, T Overath, TD Griffiths
European Journal of Neuroscience 54 (9), 7274-7288, 2021
Modulation change detection in human auditory cortex: Evidence for asymmetric, non‐linear edge detection
SG Kim, D Poeppel, T Overath
European Journal of Neuroscience 52 (2), 2889-2904, 2020
Linguistic modulation of the neural encoding of phonemes
SG Kim, F De Martino, T Overath
Cerebral Cortex 34 (4), bhae155, 2024
The system can't perform the operation now. Try again later.
Articles 1–20