Bernhard Ross
Bernhard Ross
University of Toronto, Rotman Research Institute, Baycrest Centre
Verified email at - Homepage
Cited by
Cited by
Increased auditory cortical representation in musicians
C Pantev, R Oostenveld, A Engelien, B Ross, LE Roberts, M Hoke
Nature 392 (6678), 811-814, 1998
Internalized timing of isochronous sounds is represented in neuromagnetic beta oscillations
T Fujioka, LJ Trainor, EW Large, B Ross
Journal of Neuroscience 32 (5), 1791-1802, 2012
Timbre-specific enhancement of auditory cortical representations in musicians
C Pantev, LE Roberts, M Schulz, A Engelien, B Ross
Neuroreport 12 (1), 169-174, 2001
One year of musical training affects development of auditory cortical-evoked fields in young children
T Fujioka, B Ross, R Kakigi, C Pantev, LJ Trainor
Brain 129 (10), 2593-2608, 2006
Musical training enhances automatic encoding of melodic contour and interval structure
T Fujioka, LJ Trainor, B Ross, R Kakigi, C Pantev
Journal of cognitive neuroscience 16 (6), 1010-1021, 2004
A high-precision magnetoencephalographic study of human auditory steady-state responses to amplitude-modulated tones
B Roß, C Borgmann, R Draganova, LE Roberts, C Pantev
The Journal of the Acoustical Society of America 108 (2), 679-691, 2000
Beta and gamma rhythms in human auditory cortex during musical beat processing
T Fujioka, LJ Trainor, EW Large, B Ross
Annals of the New York Academy of Sciences 1169 (1), 89-92, 2009
Tonotopic organization of the sources of human auditory steady-state responses
C Pantev, LE Roberts, T Elbert, B Roβ, C Wienbruch
Hearing research 101 (1-2), 62-74, 1996
Automatic encoding of polyphonic melodies in musicians and nonmusicians
T Fujioka, LJ Trainor, B Ross, R Kakigi, C Pantev
Journal of cognitive neuroscience 17 (10), 1578-1592, 2005
Music and learning‐induced cortical plasticity
C Pantev, B Ross, T Fujioka, LJ Trainor, M Schulte, M Schulz
Annals of the New York Academy of Sciences 999 (1), 438-450, 2003
Beta-band oscillations represent auditory beat and its metrical hierarchy in perception and imagery
T Fujioka, B Ross, LJ Trainor
Journal of Neuroscience 35 (45), 15187-15198, 2015
Modulation of P2 auditory-evoked responses by the spectral complexity of musical sounds
A Shahin, LE Roberts, C Pantev, LJ Trainor, B Ross
Neuroreport 16 (16), 1781-1785, 2005
Aging in binaural hearing begins in mid-life: evidence from cortical auditory-evoked responses to changes in interaural phase
B Ross, T Fujioka, KL Tremblay, TW Picton
Journal of Neuroscience 27 (42), 11172-11178, 2007
Temporal integration in the human auditory cortex as represented by the development of the steady-state magnetic field
B Roß, TW Picton, C Pantev
Hearing research 165 (1-2), 68-84, 2002
Right hemispheric laterality of human 40 Hz auditory steady-state responses
B Ross, AT Herdman, C Pantev
Cerebral cortex 15 (12), 2029-2039, 2005
Stimulus experience modifies auditory neuromagnetic responses in young and older listeners
B Ross, K Tremblay
Hearing research 248 (1-2), 48-59, 2009
Is the auditory evoked P2 response a biomarker of learning?
KL Tremblay, B Ross, K Inoue, K McClannahan, G Collet
Frontiers in systems neuroscience 8, 28, 2014
Combined EEG and MEG recordings of visual 40 Hz responses to illusory triangles in human
C Tallon-Baudry, O Bertrand, C Wienbruch, B Ross, C Pantev
Neuroreport 8 (5), 1103-1107, 1997
Stimulus induced desynchronization of human auditory 40-Hz steady-state responses
B Ross, AT Herdman, C Pantev
Journal of neurophysiology 94 (6), 4082-4093, 2005
The auditory evoked “off” response: Sources and comparison with the" on" and the “sustained” responses
C Pantev, C Eulitz, S Hampson, B Ross, LE Roberts
Ear and hearing 17 (3), 255-265, 1996
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