| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Michelle J Redinbaugh, Yuri B Saalman. Contributions of Basal Ganglia Circuits to Perception, Attention, and Consciousness. Journal of cognitive neuroscience. 2024-05-02. PMID:38695762. |
this depends on the integrative relationship between cortex, bg, and thalamus, which allows contributions to sensory gating, predictive processing, selective attention, and representation of the temporal structure of events. |
2024-05-02 |
2024-05-04 |
Not clear |
| Hannah Tarder-Stoll, Christopher Baldassano, Mariam Al. The brain hierarchically represents the past and future during multistep anticipation. bioRxiv : the preprint server for biology. 2023-08-07. PMID:37546761. |
temporal structure was represented in the hippocampus and across visual regions (1) bidirectionally, with graded representations into the past and future and (2) hierarchically, with further events into the past and future represented in successively more anterior brain regions. |
2023-08-07 |
2023-08-14 |
human |
| Jacob L S Bellmund, Lorena Deuker, Nicole D Montijn, Christian F Doelle. Mnemonic construction and representation of temporal structure in the hippocampal formation. Nature communications. vol 13. issue 1. 2022-06-23. PMID:35739096. |
mnemonic construction and representation of temporal structure in the hippocampal formation. |
2022-06-23 |
2023-08-14 |
human |
| Ilina Bhaya-Grossman, Edward F Chan. Speech Computations of the Human Superior Temporal Gyrus. Annual review of psychology. 2021-10-21. PMID:34672685. |
here, we describe how speech sound representation in the stg relies on fundamentally nonlinear and dynamical processes, such as categorization, normalization, contextual restoration, and the extraction of temporal structure. |
2021-10-21 |
2023-08-13 |
human |
| Jacob Ls Bellmund, Lorena Deuker, Christian F Doelle. Mapping sequence structure in the human lateral entorhinal cortex. eLife. vol 8. 2020-02-03. PMID:31383256. |
our findings demonstrate representations of temporal structure in the alec; dovetailing with temporal information carried by population signals in the lateral entorhinal cortex of navigating rodents and alec activations during temporal memory retrieval. |
2020-02-03 |
2023-08-13 |
human |
| Thomas Deneux, Alexandre Kempf, Aurélie Daret, Emmanuel Ponsot, Brice Bathellie. Temporal asymmetries in auditory coding and perception reflect multi-layered nonlinearities. Nature communications. vol 7. 2018-09-03. PMID:27580932. |
comparing different models, we show that cortical responses result from multi-layered nonlinearities, which, contrary to standard receptive field models of auditory cortex function, build divergent representations of sounds with similar spectral content, but different temporal structure. |
2018-09-03 |
2023-08-13 |
mouse |
| Michael Schwartze, Sonja A Kot. Contributions of cerebellar event-based temporal processing and preparatory function to speech perception. Brain and language. vol 161. 2017-09-11. PMID:26362972. |
we propose that cerebellar temporal processing contributes to speech perception on a number of accounts: temporally precise cerebellar encoding and rapid transmission of an event-based representation of the temporal structure of the speech signal serves to prepare areas in the cerebral cortex for the subsequent perceptual integration of sensory information. |
2017-09-11 |
2023-08-13 |
Not clear |
| Michael Schwartze, Sonja A Kot. A dual-pathway neural architecture for specific temporal prediction. Neuroscience and biobehavioral reviews. vol 37. issue 10 Pt 2. 2014-08-06. PMID:23994272. |
key to these functions is rapid cerebellar transmission of an adaptively-filtered, event-based representation of temporal structure. |
2014-08-06 |
2023-08-12 |
Not clear |
| Stephen T Hammett, Andrew T Smith, Matthew B Wall, Jonas Larsso. Implicit representations of luminance and the temporal structure of moving stimuli in multiple regions of human visual cortex revealed by multivariate pattern classification analysis. Journal of neurophysiology. vol 110. issue 3. 2014-02-18. PMID:23678010. |
implicit representations of luminance and the temporal structure of moving stimuli in multiple regions of human visual cortex revealed by multivariate pattern classification analysis. |
2014-02-18 |
2023-08-12 |
human |
| Anna C Schapiro, Lauren V Kustner, Nicholas B Turk-Brown. Shaping of object representations in the human medial temporal lobe based on temporal regularities. Current biology : CB. vol 22. issue 17. 2013-02-21. PMID:22885059. |
these findings suggest that object representations in mtl come to mirror the temporal structure of the environment, supporting rapid and incidental statistical learning. |
2013-02-21 |
2023-08-12 |
human |
| Matt Wachowiak, Daniel W Wesson, Nicolás Pírez, Justus V Verhagen, Ryan M Care. Low-level mechanisms for processing odor information in the behaving animal. Annals of the New York Academy of Sciences. vol 1170. 2009-09-25. PMID:19686149. |
first, changes in odor sampling behavior, such as sniffing, can dramatically and rapidly alter primary odor representations by changing the strength and temporal structure of sensory input to the olfactory bulb, effectively shaping which features of the olfactory landscape are emphasized and likely altering how information is processed by the olfactory bulb network. |
2009-09-25 |
2023-08-12 |
human |
| Hirokazu Takahashi, Masayuki Nakao, Kimitaka Kag. Distributed representation of sound intensity in the rat auditory cortex. Neuroreport. vol 15. issue 13. 2005-01-13. PMID:15486482. |
the experiments were designed to elucidate how the auditory cortex represents a steady-state plateau sound pressure level (spl) and dynamic onset temporal structure, i.e., the rate of pressure change (in pa/s), and how the representations differ across the auditory fields. |
2005-01-13 |
2023-08-12 |
rat |
| Klaus Mathiak, Ingo Hertrich, Wolfgang Grodd, Hermann Ackerman. Cerebellum and speech perception: a functional magnetic resonance imaging study. Journal of cognitive neuroscience. vol 14. issue 6. 2002-10-11. PMID:12191457. |
conceivably, representation of the temporal structure of speech sound sequences represents the common denominator of cerebellar participation in cognitive tasks acting on a phonetic code. |
2002-10-11 |
2023-08-12 |
human |
| G J Rose, E S Fortun. Mechanisms for generating temporal filters in the electrosensory system. The Journal of experimental biology. vol 202. issue Pt 10. 1999-07-01. PMID:10210668. |
neural representations of the temporal structure of sensory signals include fluctuations in the discharge rate of neurons over time (peripheral nervous system) and the differential level of activity in neurons tuned to particular temporal features (temporal filters in the central nervous system). |
1999-07-01 |
2023-08-12 |
Not clear |