D
Daniel Pressnitzer
Researcher at École Normale Supérieure
Publications - 101
Citations - 3425
Daniel Pressnitzer is an academic researcher from École Normale Supérieure. The author has contributed to research in topics: Perception & Timbre. The author has an hindex of 30, co-authored 95 publications receiving 2985 citations. Previous affiliations of Daniel Pressnitzer include Paris Descartes University & IRCAM.
Papers
More filters
Journal ArticleDOI
Temporal dynamics of auditory and visual bistability reveal common principles of perceptual organization
TL;DR: This work compares the temporal dynamics of percept alternations observed during auditory streaming with those observed for visual plaids and the susceptibilities of both modalities to volitional control to indicate that auditory and visual alternations share common principles of perceptual bistability.
Journal ArticleDOI
Perceptual Organization of Sound Begins in the Auditory Periphery
TL;DR: This work finds that scene analysis starts much earlier in the auditory pathways than previously reported, and reveals that subcortical structures may already contribute to the analysis of auditory scenes.
Journal ArticleDOI
The lower limit of melodic pitch
TL;DR: A computational auditory model that extracts pitch information with autocorrelation can reproduce all of the observed effects, provided the contribution of longer time intervals is progressively reduced by a linear weighting function that limits the mechanism to time intervals of less than about 33 ms.
Journal ArticleDOI
Rapid Formation of Robust Auditory Memories: Insights from Noise
Trevor R. Agus,Trevor R. Agus,Simon J. Thorpe,Simon J. Thorpe,Daniel Pressnitzer,Daniel Pressnitzer +5 more
TL;DR: It is proposed that rapid sensory plasticity could explain how the auditory brain creates useful memories from the ever-changing, but sometimes repeating, acoustical world.
Journal ArticleDOI
The lower limit of pitch as determined by rate discrimination.
TL;DR: The hypothesis that in the low-frequency region, the pitch limit is determined by a temporal mechanism, which analyzes time intervals between peaks in the neural activity pattern, is supported.