Most links should eventually lead to the full text versions, but if not, please do not hesitate to send me an email for reprints.
Kang HJ, Lancelin D, Pressnitzer D (2018) Memory for random time patterns in audition, touch, and vision. Neuroscience, In press. [journal]
Agus TR, Paquette S, Suied C, Pressnitzer D, Belin P (2017) Voice selectivity in the temporal area despite matched low-level acoustic cues. Scientific Reports, 7: 11526. [journal]
Andrillon T, Pressnitzer D, Léger D, Kouider S (2017) Formation and suppression of acoustic memories during human sleep. Nature Communications, 8: 179. [journal]
Some nice press coverage for that one, see for instance here or here.
Chambers C, Akram S, Adam V, Pelofi C, Sahani M, Shamma S, Pressnitzer D (2017) Prior context in audition informs binding and shapes simple features. Nature Communications, 8: 15027. [journal]
Do have a look at the corresponding demo!
Kang HJ, Agus TR, Pressnitzer D (2017) Auditory memory for random time patterns. The Journal of the Acoustical Society of America, 142: 2219-2232. [journal] [pdf]
Lin IF, Agus TR, Suied C, Pressnitzer D, Yamada T, Komine Y, Nobumasa Kato N, Kashino M (2016) Fast response to human voices in autism. Scientific Reports, 6 , 26336. [journal]
Tabas A, Siebert A, Supek S, Pressnitzer D, Balaguer-Ballester E, Rupp A (2016) Insights on the Neuromagnetic Representation of Temporal Asymmetry in Human Auditory Cortex. Plos One, 11(4), e0153947. [journal]
Andrillon T, Kouider S, Agus T, Pressnitzer, D. (2015) Perceptual learning of acoustic noise generates memory-evoked potentials. Current Biology, 25, 2823-2829. [journal].
Occelli F, Suied C, Pressnitzer D, Edeline JM, Gourévitch B (2015) A Neural substrate for rapid timbre recognition? Neural and behavioral discrimination of very brief acoustic vowels. Cerebral Cortex, 26, 2483-2496. [journal]
Agus TR, Carrión-Castillo A, Pressnitzer D, Ramus F (2014) Perceptual learning of acoustic noise by dyslexic individuals. Journal of Speech, Language, and Hearing Research, 57, 1069-1077. [journal].
Chambers C, Pressnitzer D (2014) Perceptual hysteresis in the judgment of auditory pitch shift. Attention, Perception, & Psychophysics, 76, 1271-1279. [journal]
Cousineau M, Carcagno S, Demany L, Pressnitzer D (2014) What is a melody? On the relationship between pitch and brightness of timbre. Frontiers in Systems Neuroscience, 7:127. doi: 10.3389/fnsys.2013.00127 [journal]
Kondo HM, Toshima I, Pressnitzer D, Kashino M (2014) Probing the time-course of head-motion cues integration during auditory scene analysis. Frontiers in Neuroscience, 8:170. doi: 10.3389/fnins.2014.00170. [journal]
Kumar S, Bonnici H, Teki S, Agus TR, Pressnitzer D, Maguire E, Griffiths T (2014) Representations of specific acoustic patterns in the auditory cortex and hippocampus. Proceedings of the Royal Society B: Biological Sciences, 281: 20141000. [journal] [pdf].
Martin JR, Dezecache G, Pressnitzer D, Nuss P, Dokic J, Bruno N, Pacherie E, Franck N (2014). Perceptual hysteresis as a marker of perceptual inflexibility in schizophrenia. Consciousness and Cognition, 30C, 62-72. [journal]
Suied C, Agus TR, Thorpe S, Mesgarani N, Pressnitzer D (2014) Auditory gist: Recognition of very short sound from timbre cues. Journal of the Acoustical Society of America, 135, 1380-1391. [journal] [pdf].
Agus TR, Pressnitzer D (2013) The detection of repetitions in noise before and after perceptual learning. Journal of the Acoustical Society of America, 134, 464-473.[journal] [pdf]
Pressnitzer D, Agus TR, Suied C (2013,). Acoustic timbre recognition. In: Jaeger D., Jung R. (Ed.) Encyclopedia of Computational Neuroscience: SpringerReference. Springer-Verlag Berlin Heidelberg, 2013. [link] [pdf]
Suied C, Agus TR, Thorpe SJ, & Pressnitzer D (2013) Processing of short auditory stimuli: The Rapid Audio Sequential Presentation paradigm (RASP). Adv Exp Med Biol, 787, 443-451.[link]
Suied C, Drémeau A, Pressnitzer, D, Daudet L (2013) Auditory sketches: Sparse representations of sounds based on perceptual models. Lecture Notes in Computer Science, 7900, 154-170.[journal]
Agus TR, Suied C, Thorpe SJ, Pressnitzer D (2012) Fast recognition of musical sounds based on timbre. Journal of the Acoustical Society of America, 131, 4124-4133. [journal] [pdf]
Hupé JM, Pressnitzer D (2012) The initial phase of auditory and visual scene analysis. Philosophical Transactions of the Royal Society B, 367(1591), 942-953. [journal]
Joly O, Pallier C, Ramus F, Pressnitzer D, Vanduffel W, & Orban GA (2012) Processing of vocalizations in humans and monkeys: A comparative fMRI study. Neuroimage, 62, 1376-1389.
Joly O, Ramus F, Pressnitzer D, Vanduffel W, Orban GA (2012). Interhemispheric Differences in Auditory Processing Revealed by fMRI in Awake Rhesus Monkeys. Cerebral Cortex, 22, 838-853.
Kondo* H, Pressnitzer* D (joint first authorship), Toshima I, Kashino M (2012). Effects of self-motion on auditory scene analysis. Proceedings of the National Academy of Sciences of the United States of America (PNAS), 109, 6775-6780. [journal] [pdf]
Maier JK, Hehrmann P, Harper NS, Klump GM, Pressnitzer D, & McAlpine D (2012) Adaptive coding is constrained to midline locations in a spatial listening task. Journal of Neurophysiology, 108(7), 1856-1868.
Patil K, Pressnitzer D, Shamma S, Elhilali M (2012) Music in our ears: the biological bases of musical timbre perception. PLoS Computational Biology, 8(11):e1002759. [journal]
Schwartz JL, Grimault N, Hupé JM, Moore BCJ, Pressnitzer D (2012) Multistability in perception: binding sensory modalities, an overview. Philosophical Transactions of the Royal Society B, 367(1591), 896-905. [journal] [pdf]
Demany L, Semal C, Pressnitzer D (2011) Implicit versus explicit frequency comparisons: Two mechanisms for auditory change detection. Journal of Experimental Psychology: Human Perception and Performance, 37, 597-605. [journal] [pdf]
Pressnitzer, D., Suied, C., & Shamma, S.A. (2011). Auditory scene analysis: the sweet music of ambiguity. Frontiers in Human Neuroscience, 5, 158. [journal] [pdf]
Agus TR, Thorpe SJ, Pressnitzer D (2010) Rapid formation of auditory memories: Insights from noise. Neuron. 66: 610-618. [journal] [pdf]
See also Neuron's preview by Tim Griffiths, Current Biology's dispatch by Aaron Seitz, or the news from the field in AP&P.
Paper selected as "must read" by the Faculty of 1000 Biology.
Cousineau M, Demany L, Pressnitzer D (2010). The role of peripheral resolvability in pitch-sequence processing. Journal of the Acoustical Society of America - EL. EL236. [journal] [pdf].
Cousineau M, Demany L, Meyer B, Pressnitzer D (2010) What breaks a melody: Perceiving F0 and intensity sequences with a cochlear implant. Hearing Research. 269, 34-41. [journal] [pdf]
Demany L, Semal C, Cazalets JR, Pressnitzer D (2010) Fundamental differences in change detection between audition and vision. Experimental Brain Research. 203: 261-270.[journal][pdf]
Gnansia D, Pressnitzer D, Péan V, Meyer B, Lorenzi C (2010) Intelligibility of interrupted and interleaved speech for normal-hearing listeners and cochlear implantees. Hearing Research. 265: 46-53.
Maier JK, McAlpine D, Klump GM, Pressnitzer D (2010) Context effects in the discriminability of spatial cues. Journal of the Association for Researh in Otolaryngology.11: 319-328.[journal][pdf]
Cousineau M, Demany L, Pressnitzer D (2009) What makes a melody: The perceptual singularity of pitch sequences. Journal of the Acoustical Society of America. 126: 3179-3187.[journal][corrected pdf]
Demany L, Pressnitzer D, Semal C (2009) Tuning properties of the auditory frequency-shift detectors. Journal of the Acoustical Society of America. 126: 1342-1348. [journal]
Pressnitzer D, Sayles M, Micheyl C, Winter IM (2008) Perceptual organization of sound begins in the auditory periphery. Current Biology. 18, 1124-1128. [journal] [pdf]
See also Current Biology's dispatch by Jan Schnupp.
Hupé JM, Joffo LM, Pressnitzer D (2008) Bistability for audiovisual stimuli: Perceptual decision is modality specific. Journal of Vision, 8(7): 1, 1-15, doi:10.1167/8.7.1. Special Issue: Perceptual Organization and Neural Computation. [journal] [pdf]
Ardoint M, Lorenzi C, Pressnitzer D, Gorea A. (2008) Investigation of perceptual constancy in the temporal-envelope domain. Journal of the Acoustical Society of America. 123: 1591-1601. [pdf] [journal]
Pressnitzer D, Hupé JM (2006) Temporal dynamics of auditory and visual bistability reveal common principles of perceptual organization. Current Biology. 16, 1351-1357. [journal] [pdf] [supplemental data]
de Cheveigné A, Pressnitzer D (2006) The case of the missing delay lines: Synthetic delays obtained by cross-channel phase interaction. Journal of the Acoustical Society of America, 119:3908-3918. [pdf] [journal]
Pressnitzer D, de Cheveigné A, McAdams S, and Collet L (2005) Auditory Signal Processing: Physiology, Psychoacoustics, and Models. New York: Springer (524 pages). [link]
Pressnitzer D, Bestel J, Fraysse B (2005) Music to electric ears: Pitch and timbre perception by cochlear implant patients. Annals of the New York Academy of Sciences 1060, 343-345. [journal] [pdf]
Pressnitzer D, Gnansia D (2005) Real-time auditory models. Proceedings of International Computer Music Conference, Barcelona. pp. 295-298. [pdf]
Loiselle S, Rouat J, Pressnitzer D, and Thorpe S (2005) Exploration of Rank Order Coding with Spiking Neural Networks for Speech Recognition. Proceedings of International Joint Conference on Neural Networks, Montreal. pp. 2076-2080.
Verhey J, Pressnitzer D, Winter IM (2003) The psychophysics and physiology of comodulation masking release. Experimental Brain Research, 153:405-417. [journal]
Pressnitzer D, de Cheveigné A, and Winter IM (2003) Physiological correlate of the perceptual pitch shift for sounds with similar waveform autocorrelation. Acoustical Research Letters Online, 5:1-6. [journal] [pdf]
Pressnitzer D, de Cheveigné A, and Winter IM (2002) Perceptual pitch shift for sounds with similar waveform autocorrelation. Acoustical Research Letters Online, 3:1-6. [journal] [pdf]
Pressnitzer D, Meddis R, Delahaye R, and Winter IM (2001) Physiological correlates of comodulation masking release in the mammalian VCN. J. Neuroscience, 21:6377-6386. [journal] [pdf]
Pressnitzer D and Patterson RD (2001) Distortion products and the perceived pitch of harmonic complex tones. In: Breebart, DJ, Houtsma, AJM, Kohlrausch, A, Prijs, VF, and Schoonoven, R (Eds) Physiological and Psychophysical Bases of Auditory Function, pages 97-104. Shaker Publishing BV, Maastricht, The Netherlands. [pdf]
Pressnitzer D, Patterson RD, and Krumbholz K (2001) The Lower Limit of Melodic Pitch. Journal of the Acoustical Society of America, 109:2074-2084. [journal] [pdf]
Neuert V, Pressnitzer D, Patterson RD, and Winter IM (2001) The response of single units in the inferior colliculus of the guinea pig to damped and ramped sinusoids.Hearing Research, 159:36-52. [journal] [pdf]
Pressnitzer D, Winter IM, and Patterson RD (2000) The response of single units in the ventral cochlear nucleus of the guinea pig to damped and ramped sinusoids. Hearing Research, 149:155-166. [journal] [pdf]
Pressnitzer D, McAdams S, Winsberg S, and Fineberg J (2000) Perception of musical tension for non-tonal orchestral timbres and its relation to psychoacoustic roughness. Perception and Psychophysics, 62(1):66-80. [pdf]
Krumbholz K, Patterson RD, and Pressnitzer D (2000) The Lower Limit of Pitch as revealed by Rate Discrimination Thresholds. Journal of the Acoustical Society of America, 108:1170-1180. [journal]
Pressnitzer D and McAdams S (1999). Summation of roughness across frequency regions. In: Dau T, Hohmann V, and Kollmeier B (Eds) Temporal processing in the auditory system: Psychophysics, physiology and models of hearing, pages 105-108. World Scientific Publishing, Singapore. [pdf]
Pressnitzer D and McAdams S (1999) Two phase effects on roughness perception. Journal of the Acoustical Society of America, 105(5):2773-2782. [journal] [pdf]
Pressnitzer D and McAdams S (1999). Acoustics, psychoacoustics and spectral music. Contemporary Music Review, 19(2):33-60. [pdf]