Perceptual Learning and Representational Learning in Humans and Animals

Overview

Journal Learn Behav

Publisher Springer

Specialties Psychology
Social Sciences
Veterinary Medicine

Date 2009 Apr 22

PMID 19380891

Citations 12

Authors

Jozsef Fiser

Affiliations

Soon will be listed here.

Abstract

Traditionally, perceptual learning in humans and classical conditioning in animals have been considered as two very different research areas, with separate problems, paradigms, and explanations. However, a number of themes common to these fields of research emerge when they are approached from the more general concept of representational learning. To demonstrate this, I present results of several learning experiments with human adults and infants, exploring how internal representations of complex unknown visual patterns might emerge in the brain. I provide evidence that this learning cannot be captured fully by any simple pairwise associative learning scheme, but rather by a probabilistic inference process called Bayesian model averaging, in which the brain is assumed to formulate the most likely chunking/grouping of its previous experience into independent representational units. Such a generative model attempts to represent the entire world of stimuli with optimal ability to generalize to likely scenes in the future. I review the evidence showing that a similar philosophy and generative scheme of representation has successfully described a wide range of experimental data in the domain of classical conditioning in animals. These convergent findings suggest that statistical theories of representational learning might help to link human perceptual learning and animal classical conditioning results into a coherent framework.

Citing Articles

Do we parse the background into separate streams in the cocktail party?.

Szalardy O, Toth B, Farkas D, Orosz G, Winkler I Front Hum Neurosci. 2022; 16:952557.

PMID: 36393982 PMC: 9649784. DOI: 10.3389/fnhum.2022.952557.

Sequence learning recodes cortical representations instead of strengthening initial ones.

Kalm K, Norris D PLoS Comput Biol. 2021; 17(5):e1008969.

PMID: 34029315 PMC: 8177667. DOI: 10.1371/journal.pcbi.1008969.

Mental imagery in animals: Learning, memory, and decision-making in the face of missing information.

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Semantic integration by pattern priming: experiment and cortical network model.

Lavigne F, Longree D, Mayaffre D, Mellet S Cogn Neurodyn. 2016; 10(6):513-533.

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Perceptual learning and face processing in infancy.

Galati A, Hock A, Bhatt R Dev Psychobiol. 2016; 58(7):829-840.

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