Virtual pitch and phase sensitivity of a computer model of the auditory periphery. I: Pitch identification R Meddis, MJ Hewitt The Journal of the Acoustical Society of America 89 (6), 2866-2882, 1991 | 746 | 1991 |
A unitary model of pitch perception R Meddis, L O’Mard The Journal of the Acoustical Society of America 102 (3), 1811-1820, 1997 | 554 | 1997 |
Simulation of mechanical to neural transduction in the auditory receptor R Meddis The Journal of the Acoustical Society of America 79 (3), 702-711, 1986 | 531 | 1986 |
Statistics using ranks: A unified approach R Meddis (No Title), 1984 | 531 | 1984 |
Simulation of auditory–neural transduction: Further studies R Meddis The Journal of the Acoustical Society of America 83 (3), 1056-1063, 1988 | 366 | 1988 |
A human nonlinear cochlear filterbank EA Lopez-Poveda, R Meddis The Journal of the Acoustical Society of America 110 (6), 3107-3118, 2001 | 319 | 2001 |
Modeling the identification of concurrent vowels with different fundamental frequencies R Meddis, MJ Hewitt The Journal of the Acoustical Society of America 91 (1), 233-245, 1992 | 293 | 1992 |
A computational algorithm for computing nonlinear auditory frequency selectivity R Meddis, LP O’Mard, EA Lopez-Poveda The Journal of the Acoustical Society of America 109 (6), 2852-2861, 2001 | 263 | 2001 |
A revised model of the inner-hair cell and auditory-nerve complex CJ Sumner, EA Lopez-Poveda, LP O’Mard, R Meddis The Journal of the Acoustical Society of America 111 (5), 2178-2188, 2002 | 259 | 2002 |
On the function of sleep R Meddis Animal Behaviour 23, 676-691, 1975 | 252 | 1975 |
Implementation details of a computation model of the inner hair‐cell auditory‐nerve synapse R Meddis, MJ Hewitt, TM Shackleton The Journal of the Acoustical Society of America 87 (4), 1813-1816, 1990 | 245 | 1990 |
A physical model of sound diffraction and reflections in the human concha EA Lopez‐Poveda, R Meddis The Journal of the Acoustical Society of America 100 (5), 3248-3259, 1996 | 188 | 1996 |
Virtual pitch and phase sensitivity of a computer model of the auditory periphery. II: Phase sensitivity R Meddis, MJ Hewitt The Journal of the Acoustical Society of America 89 (6), 2883-2894, 1991 | 183 | 1991 |
Effects of a difference in fundamental frequency in separating two sentences J Bird, CJ Darwin, AR Palmer, A Rees, AQ Summerfield, R Meddis Psychophysical and physiological advances in hearing 1998, 263-269, 1998 | 178 | 1998 |
Auditory-nerve first-spike latency and auditory absolute threshold: a computer model R Meddis The Journal of the Acoustical Society of America 119 (1), 406-417, 2006 | 167 | 2006 |
A computer model of amplitude‐modulation sensitivity of single units in the inferior colliculus MJ Hewitt, R Meddis The Journal of the Acoustical Society of America 95 (4), 2145-2159, 1994 | 167 | 1994 |
Cochlear nonlinearity between 500 and 8000 Hz in listeners with normal hearing EA Lopez-Poveda, CJ Plack, R Meddis The Journal of the Acoustical Society of America 113 (2), 951-960, 2003 | 166 | 2003 |
Computer simulation of auditory stream segregation in alternating‐tone sequences MW Beauvois, R Meddis The Journal of the Acoustical Society of America 99 (4), 2270-2280, 1996 | 165 | 1996 |
Bipolar factors in mood adjective checklists RAY Meddis British Journal of Social and Clinical Psychology 11 (2), 178-184, 1972 | 151 | 1972 |
The sleep instinct R Meddis Routledge, 2017 | 137 | 2017 |