Open AccessDynamic representation of time in brain states
Author(s) -
Fernanda Dantas Bueno,
Vanessa Carneiro Morita,
Raphael Y. de Camargo,
Marcelo Bussotti Reyes,
Marcelo S. Caetano,
André M. Cravo
Publication year - 2017
Publication title -
scientific reports
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.24
H-Index - 213
ISSN - 2045-2322
DOI - 10.1038/srep46053
Subject(s) - brain activity and meditation , electroencephalography , dynamics (music) , time perception , computer science , representation (politics) , temporal scales , human brain , perception , millisecond , neuroscience , temporal cortex , scale (ratio) , artificial intelligence , cognitive psychology , psychology , biology , cartography , physics , ecology , pedagogy , astronomy , politics , political science , law , geography
The ability to process time on the scale of milliseconds and seconds is essential for behaviour. A growing number of studies have started to focus on brain dynamics as a mechanism for temporal encoding. Although there is growing evidence in favour of this view from computational and in vitro studies, there is still a lack of results from experiments in humans. We show that high-dimensional brain states revealed by multivariate pattern analysis of human EEG are correlated to temporal judgements. First, we show that, as participants estimate temporal intervals, the spatiotemporal dynamics of their brain activity are consistent across trials. Second, we present evidence that these dynamics exhibit properties of temporal perception, such as scale invariance. Lastly, we show that it is possible to predict temporal judgements based on brain states. These results show how scalp recordings can reveal the spatiotemporal dynamics of human brain activity related to temporal processing.
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