Alexander Provost
Overview
Explore the profile of Alexander Provost including associated specialties, affiliations and a list of published articles.
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Articles
18
Citations
194
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Recent Articles
1.
Damaso K, Castro S, Todd J, Strayer D, Provost A, Matzke D, et al.
Mem Cognit
. 2021 Dec;
50(5):962-978.
PMID: 34950999
The effects of distraction on responses manifest in three ways: prolonged reaction times, and increased error and response omission rates. However, the latter effect is often ignored or assumed to...
2.
Fitzgerald K, Auksztulewicz R, Provost A, Paton B, Howard Z, Todd J
J Cogn Neurosci
. 2021 Sep;
33(8):1549-1562.
PMID: 34496376
Our understanding of the sensory environment is contextualized on the basis of prior experience. Measurement of auditory ERPs provides insight into automatic processes that contextualize the relevance of sound as...
3.
Todd J, Provost A, Whitson L, Mullens D
Neuroscience
. 2018 May;
389:41-53.
PMID: 29782815
This paper features two studies confirming a lasting impact of first learning on how subsequent experience is weighted in early relevance-filtering processes. In both studies participants were exposed to sequences...
4.
Fitzgerald K, Provost A, Todd J
Psychophysiology
. 2017 Oct;
55(4).
PMID: 28972671
Internal models of regularities in the world serve to facilitate perception as redundant input can be predicted and neural resources conserved for that which is new or unexpected. In the...
5.
Provost A, Jamadar S, Heathcote A, Brown S, Karayanidis F
Psychophysiology
. 2017 Aug;
55(3).
PMID: 28776698
In cued task switching, performance relies on proactive and reactive control processes. Proactive control is evident in the reduction in switch cost under conditions that promote advance preparation. However, the...
6.
Todd J, Petherbridge A, Speirs B, Provost A, Paton B
Schizophr Res
. 2017 Mar;
191:123-131.
PMID: 28343741
Time, or more specifically temporal structure, is a critical variable in understanding how the auditory system uses acoustic patterns to predict input, and to filter events based on their relevance....
7.
Todd J, Provost A, Whitson L, Mullens D
J Physiol Paris
. 2017 Jan;
110(4 Pt B):497-507.
PMID: 28088499
This paper features two studies confirming a lasting impact of first learning on how subsequent experience is weighted in early relevance-filtering processes. In both studies participants were exposed to sequences...
8.
Frost J, Winkler I, Provost A, Todd J
Biol Psychol
. 2015 Oct;
116:47-56.
PMID: 26493340
The mismatch negativity (MMN) is conceptualized as a confidence-weighted error signal elicited when a deviation violates the predicted next-state based on regularity. The mechanisms underpinning its generation remain contentious. Smaller...
9.
Provost A, Heathcote A
Psychol Rev
. 2015 Sep;
122(4):735-54.
PMID: 26348976
Shepard and Metzler's (1971) seminal mental-rotation task-which requires participants to decide if 1 object is a rotated version of another or its mirror image-has played a central role in the...
10.
Todd J, Heathcote A, Whitson L, Mullens D, Provost A, Winkler I
Front Neurosci
. 2014 Jul;
8:180.
PMID: 25009462
Pattern learning facilitates prediction about upcoming events. Within the auditory system such predictions can be studied by examining effects on a component of the auditory-evoked potential known as mismatch negativity...