Tracking cortical representations of facial attractiveness using time-resolved representational similarity analysis

Kaiser, Daniel; Nyga, Karen

doi:10.1038/s41598-020-74009-9

Cited by 13 publications

(20 citation statements)

References 82 publications

(139 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Specifically, for each searchlight neighborhood, we computed a partial correlation between the neural RDM and the predictor RDM which was controlled for the control RDMs. This procedure ensured that if the control RDMs predicted the same portion of variance in the neural RDM as the predictor RDM, the correlation would disappear (for similar approaches, see [69][70][71]). All other aspects of the analysis remained identical to the previous searchlight analysis.…”

Section: Representational Similarity Analysismentioning

confidence: 99%

Modelling brain representations of abstract concepts

2022

Self Cite

View full text Add to dashboard Cite

conceptual representations are critical for human cognition. Despite their importance, key properties of these representations remain poorly understood. Here, we used computational models of distributional semantics to predict multivariate fMRI activity patterns during the activation and contextualization of abstract concepts. We devised a task in which participants had to embed abstract nouns into a story that they developed around a given background context. We found that representations in inferior parietal cortex were predicted by concept similarities emerging in models of distributional semantics. By constructing different model families, we reveal the models’ learning trajectories and delineate how abstract and concrete training materials contribute to the formation of brain-like representations. These results inform theories about the format and emergence of abstract conceptual representations in the human brain.

show abstract

Section: Representational Similarity Analysismentioning

confidence: 99%

Modelling brain representations of abstract concepts

2022

Self Cite

View full text Add to dashboard Cite

show abstract

“…Second, to track the impact of consistent or inconsistent objects on scenes representations, we performed decoding analyses to discriminate between the eight scene categories separately for consistent and inconsistent conditions at each time point from -100 ms to 1800 ms relative to the onset of the scene (-1100 ms to 800 ms relative to the onset of the object). For all decoding analyses, we adopted two approaches: standard timeseries decoding (Boring et al, 2020;Kaiser and Nyga, 2020), using data from a sliding time window, and cumulative decoding (Ramkumar et al, 2013;Kaiser et al, 2020a), using aggregated data from all elapsed time points. The two approaches are detailed in the following paragraphs.…”

Section: Decoding Analysesmentioning

confidence: 99%

“…Considering excessive data dimensionality may harm classification, we adopted principal component analysis (PCA) to reduce the dimensionality of the data (Grootswagers et al 2017;Kaiser and Nyga 2020;Kaiser, Hä berle, et al 2020). For each classification, a PCA was performed on all data from the training set, and the PCA solution was projected onto data from the testing set.…”

Section: Decoding Analysesmentioning

confidence: 99%

Semantic scene-object consistency modulates N300/400 EEG components, but does not automatically facilitate object representations

Chen

Cichy

Kaiser

2021

Preprint

Self Cite

View full text Add to dashboard Cite

During natural vision, objects rarely appear in isolation, but often within a semantically related scene context. Previous studies reported that semantic consistency between objects and scenes facilitates object perception, and that scene-object consistency is reflected in changes in the N300 and N400 components in EEG recordings. Here, we investigate whether these N300/N400 differences are indicative of changes in the cortical representation of objects. In two experiments, we recorded EEG signals while participants viewed semantically consistent or inconsistent objects within a scene; in Experiment 1, these objects were task-irrelevant, while in Experiment 2, they were directly relevant for behavior. In both experiments, we found reliable and comparable N300/400 differences between consistent and inconsistent scene-object combinations. To probe the quality of object representations, we performed multivariate classification analyses, in which we decoded the category of the objects contained in the scene. In Experiment 1, in which the objects were not task-relevant, object category could be decoded from around 100 ms after the object presentation, but no difference in decoding performance was found between consistent and inconsistent objects. By contrast, when the objects were task-relevant in Experiment 2, we found enhanced decoding of semantically consistent, compared to semantically inconsistent, objects. These results show that differences in N300/N400 components related to scene-object consistency do not index changes in cortical object representations, but rather reflect a generic marker of semantic violations. Further, our findings suggest that facilitatory effects between objects and scenes are task-dependent rather than automatic.

show abstract

“…Much less is known about when aesthetic experiences arise dynamically across the cortical processing cascade. Much of the M/EEG literature addressing this question has focused on the perception of face attractiveness (Carbon et al, 2018; Kaiser & Nyga, 2020; Schacht et al, 2008; Werheid et al, 2007; Zhang & Deng, 2012), with many studies highlighting that a face’s attractiveness can impact early and fundamental stages of the face processing hierarchy. In our own work, we have further highlighted that such early representations of face attractiveness are partly explained by personal preferences, rather than only by attractiveness judgments that are shared among a large group of observers (Kaiser & Nyga, 2020), suggesting that even the perceptual correlates of attractiveness are shaped in personally idiosyncratic ways.…”

Section: Introductionmentioning

confidence: 99%

“…Much of the M/EEG literature addressing this question has focused on the perception of face attractiveness (Carbon et al, 2018; Kaiser & Nyga, 2020; Schacht et al, 2008; Werheid et al, 2007; Zhang & Deng, 2012), with many studies highlighting that a face’s attractiveness can impact early and fundamental stages of the face processing hierarchy. In our own work, we have further highlighted that such early representations of face attractiveness are partly explained by personal preferences, rather than only by attractiveness judgments that are shared among a large group of observers (Kaiser & Nyga, 2020), suggesting that even the perceptual correlates of attractiveness are shaped in personally idiosyncratic ways. Unlike the rich literature on face attractiveness, only few studies have looked at the time-resolved neural correlates of aesthetic judgments for other stimuli, such as abstract patterns (Höfel & Jacobsen, 2007; Jacobsen & Höfel, 2003) and various types of artworks (Cela-Conde et al, 2004; de Tommaso et al, 2007; Strijbosch et al, 2021).…”

Section: Introductionmentioning

confidence: 99%

Characterizing dynamic neural representations of scene attractiveness

Kaiser

2022

Preprint

Self Cite

View full text Add to dashboard Cite

Aesthetic experiences during natural vision are varied: they can arise from viewing scenic landscapes, interesting architecture, or attractive people. Recent research in the field of neuroaesthetics has taught us a lot about where in the brain such aesthetic experiences are represented. Much less is known about when such experiences arise during the cortical processing cascade. Particularly, the dynamic neural representation of perceived attractiveness for rich natural scenes is not well understood. Here, I present data from an EEG experiment, in which participants provided attractiveness judgments for a set of diverse natural scenes. Using multivariate pattern analysis, I demonstrate that scene attractiveness is mirrored in early brain signals that arise within 200ms of vision, suggesting that the aesthetic quality of scenes is first resolved during perceptual processing. In more detailed analyses, I show that even such early neural correlates of scene attractiveness are partly related to inter-individual variation in aesthetic preferences and that they generalize across scene contents. Together, these results characterize the time-resolved neural dynamics that give rise to aesthetic experiences in complex natural environments.

show abstract

Tracking cortical representations of facial attractiveness using time-resolved representational similarity analysis

Cited by 13 publications

References 82 publications

Modelling brain representations of abstract concepts

Modelling brain representations of abstract concepts

Semantic scene-object consistency modulates N300/400 EEG components, but does not automatically facilitate object representations

Characterizing dynamic neural representations of scene attractiveness

Contact Info

Product

Resources

About