Spontaneous perception: a framework for task-free, self-paced perception.

associative processing consciousness free viewing perception segmentation volition

Journal

Neuroscience of consciousness

ISSN: 2057-2107

Titre abrégé: Neurosci Conscious

Pays: England

ID NLM: 101679109

Informations de publication

Date de publication:
2021

Historique:

received: 05 03 2021

revised: 13 05 2021

accepted: 15 06 2021

entrez: 11 8 2021

pubmed: 12 8 2021

medline: 12 8 2021

Statut: epublish

Résumé

Flipping through social media feeds, viewing exhibitions in a museum, or walking through the botanical gardens, people consistently choose to engage with and disengage from visual content. Yet, in most laboratory settings, the visual stimuli, their presentation duration, and the task at hand are all controlled by the researcher. Such settings largely overlook the spontaneous nature of human visual experience, in which perception takes place independently from specific task constraints and its time course is determined by the observer as a self-governing agent. Currently, much remains unknown about how spontaneous perceptual experiences unfold in the brain. Are all perceptual categories extracted during spontaneous perception? Does spontaneous perception inherently involve volition? Is spontaneous perception segmented into discrete episodes? How do different neural networks interact over time during spontaneous perception? These questions are imperative to understand our conscious visual experience in daily life. In this article we propose a framework for spontaneous perception. We first define spontaneous perception as a task-free and self-paced experience. We propose that spontaneous perception is guided by four organizing principles that grant it temporal and spatial structures. These principles include coarse-to-fine processing, continuity and segmentation, agency and volition, and associative processing. We provide key suggestions illustrating how these principles may interact with one another in guiding the multifaceted experience of spontaneous perception. We point to testable predictions derived from this framework, including (but not limited to) the roles of the default-mode network and slow cortical potentials in underlying spontaneous perception. We conclude by suggesting several outstanding questions for future research, extending the relevance of this framework to consciousness and spontaneous brain activity. In conclusion, the spontaneous perception framework proposed herein integrates components in human perception and cognition, which have been traditionally studied in isolation, and opens the door to understand how visual perception unfolds in its most natural context.

Identifiants

DOI: 10.1093/nc/niab016 PMID: 34377535 PMC: PMC8333690

pubmed: 34377535

doi: 10.1093/nc/niab016

pii: niab016

pmc: PMC8333690

doi:

Types de publication

Journal Article Review

Langues

eng

Pagination

niab016

Informations de copyright

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