Review of computational neuroaesthetics: bridging the gap between neuroaesthetics and computer science

The mystery of aesthetics attracts scientists from various research fields. The topic of aesthetics, in combination with other disciplines such as neuroscience and computer science, has brought out the burgeoning fields of neuroaesthetics and computational aesthetics within less than two decades. De...

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Bibliographic Details
Published in:Brain informatics 2020-11, Vol.7 (1), p.16-16, Article 16
Main Authors: Li, Rui, Zhang, Junsong
Format: Article
Language:English
Subjects:
Aesthetics
Algorithms
Artificial Intelligence
Brain
Brain research
Brain functional connectivity
Cognitive Psychology
Computation by Abstract Devices
Computational aesthetics
Computational neuroaesthetics
Computer Science
Data mining
Health Informatics
Machine learning
Medical imaging
Neuroaesthetics
Neurophysiology
Neurosciences
Review
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Summary:The mystery of aesthetics attracts scientists from various research fields. The topic of aesthetics, in combination with other disciplines such as neuroscience and computer science, has brought out the burgeoning fields of neuroaesthetics and computational aesthetics within less than two decades. Despite profound findings are carried out by experimental approaches in neuroaesthetics and by machine learning algorithms in computational neuroaesthetics, these two fields cannot be easily combined to benefit from each other and findings from each field are isolated. Computational neuroaesthetics, which inherits computational approaches from computational aesthetics and experimental approaches from neuroaesthetics, seems to be promising to bridge the gap between neuroaesthetics and computational aesthetics. Here, we review theoretical models and neuroimaging findings about brain activity in neuroaesthetics. Then machine learning algorithms and computational models in computational aesthetics are enumerated. Finally, we introduce studies in computational neuroaesthetics which combine computational models with neuroimaging data to analyze brain connectivity during aesthetic appreciation or give a prediction on aesthetic preference. This paper outlines the rich potential for computational neuroaesthetics to take advantages from both neuroaesthetics and computational aesthetics. We conclude by discussing some of the challenges and potential prospects in computational neuroaesthetics, and highlight issues for future consideration.
ISSN:2198-4018
2198-4026
2198-4018
DOI:10.1186/s40708-020-00118-w