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Contribution des caractéristiques diagnostiques dans la reconnaissance des expressions faciales émotionnelles : une approche neurocognitive alliant oculométrie et électroencéphalographie / The contribution of diagnostic featural information to the recognition of emotion facial expressions : a neurocognitive approach with eye-tracking and electroencephalographyYang, Yu-Fang 11 May 2018 (has links)
La reconnaissance experte de l'expression faciale est cruciale pour l'interaction et la communication sociale. Le comportement, les potentiels évoqués (ERP), et les techniques d’oculométrie peuvent être utilisés pour étudier les mécanismes cérébraux qui participent au traitement visuel automatique. La reconnaissance d'expressions faciales implique non seulement l'extraction d'informations à partir de caractéristiques faciales diagnostiques, stratégie qualifiée de traitement local, mais aussi l'intégration d'informations globales impliquant des traitements configuraux. Des nombreuses recherches concernant le traitement des informations faciales émotionnelles il apparaît que l’interaction des traitements locaux et configuraux pour la reconnaissance des émotions est mal comprise. La complexité inhérente à l'intégration de l'information faciale est mise en lumière lorsque l'on compare la performance de sujets sains et d’individus atteints de schizophrénie, car ces derniers ont tendance à s’attarder sur quelques éléments locaux, parfois peu informatifs. Les différentes façons d'examiner les visages peuvent avoir un impact sur la capacité socio-cognitive de reconnaître les émotions. Pour ces raisons, cette thèse étudie le rôle des caractéristiques diagnostiques et configurales dans la reconnaissance de l'expression faciale. En plus des aspects comportementaux, nous avons donc examiné la dynamique spatiale et temporelle des fixations à l’aide de mesures oculométriques, ainsi que l’activité électrophysiologique précoce considérant plus particulièrement les composantes P100 et N170. Nous avons créé de nouveaux stimuli des esquisses par une transformation numérique de portraits photos en esquisses, pour des visages exprimant colère, tristesse, peur, joie ou neutralité, issus de la base Radboud Faces Database, en supprimant les informations de texture du visage et ne conservant que les caractéristiques diagnostiques (yeux et sourcils, nez, bouche). Ces esquisses altèrent le traitement configural en comparaison avec les visages photographiques, ce qui augmente le traitement des caractéristiques diagnostiques par traitement élémentaire, en contrepartie. La comparaison directe des mesures neurocognitives entre les esquisses et les visages photographiques exprimant des émotions de base n'a jamais été testée, à notre connaissance. Dans cette thèse, nous avons examiné (i) les fixations oculaires en fonction du type de stimulus, (ii) la réponse électrique aux manipulations expérimentales telles que l'inversion et la déconfiguration du visage. Concernant, les résultats comportementaux montrent que les esquisses de visage transmettent suffisamment d'information expressive (compte tenu de la présence des caractéristiques diagnostiques) pour la reconnaissance des émotions en comparaison des visages photographiques. Notons que, comme attendu, il y avait un net avantage de la reconnaissance des émotions pour les expressions heureuses par rapport aux autres émotions. En revanche, reconnaître des visages tristes et en colère était plus difficile. Ayant analysé séparément les fixations successives, les résultats indiquent que les participants ont adopté un traitement plus local des visages croqués et photographiés lors de la deuxième fixation. Néanmoins, l'extraction de l'information des yeux est nécessaire lorsque l'expression transmet des informations émotionnelles plus complexes et lorsque les stimuli sont simplifiés comme dans les esquisses. Les résultats de l’électroencéphalographie suggèrent également que les esquisses ont engendré plus de traitement basé sur les parties. Les éléments transmis par les traits diagnostiques pourraient avoir fait l'objet d'un traitement précoce, probablement dû à des informations de bas niveau durant la fenêtre temporelle de la P100, suivi d'un décodage ultérieur de la structure faciale dans la fenêtre temporelle de la N170. / Proficient recognition of facial expression is crucial for social interaction. Behaviour, event-related potentials (ERPs), and eye-tracking techniques can be used to investigate the underlying brain mechanisms supporting this seemingly effortless processing of facial expression. Facial expression recognition involves not only the extraction of expressive information from diagnostic facial features, known as part-based processing, but also the integration of featural information, known as configural processing. Despite the critical role of diagnostic features in emotion recognition and extensive research in this area, it is still not known how the brain decodes configural information in terms of emotion recognition. The complexity of facial information integration becomes evident when comparing performance between healthy subjects and individuals with schizophrenia because those patients tend to process featural information on emotional faces. The different ways in examining faces possibly impact on social-cognitive ability in recognizing emotions. Therefore, this thesis investigates the role of diagnostic features and face configuration in the recognition of facial expression. In addition to behavior, we examined both the spatiotemporal dynamics of fixations using eye-tracking, and early neurocognitive sensitivity to face as indexed by the P100 and N170 ERP components. In order to address the questions, we built a new set of sketch face stimuli by transforming photographed faces from the Radboud Faces Database through the removal of facial texture and retaining only the diagnostic features (e.g., eyes, nose, mouth) with neutral and four facial expressions - anger, sadness, fear, happiness. Sketch faces supposedly impair configural processing in comparison with photographed faces, resulting in increased sensitivity to diagnostic features through part-based processing. The direct comparison of neurocognitive measures between sketch and photographed faces expressing basic emotions has never been tested. In this thesis, we examined (i) eye fixations as a function of stimulus type, and (ii) neuroelectric response to experimental manipulations such face inversion and deconfiguration. The use of these methods aimed to reveal which face processing drives emotion recognition and to establish neurocognitive markers of emotional sketch and photographed faces processing. Overall, the behavioral results showed that sketch faces convey sufficient expressive information (content of diagnostic features) as in photographed faces for emotion recognition. There was a clear emotion recognition advantage for happy expressions as compared to other emotions. In contrast, recognizing sad and angry faces was more difficult. Concomitantly, results of eye-tracking showed that participants employed more part-based processing on sketch and photographed faces during second fixation. The extracting information from the eyes is needed when the expression conveys more complex emotional information and when stimuli are impoverished (e.g., sketch). Using electroencephalographic (EEG), the P100 and N170 components are used to study the effect of stimulus type (sketch, photographed), orientation (inverted, upright), and deconfiguration, and possible interactions. Results also suggest that sketch faces evoked more part-based processing. The cues conveyed by diagnostic features might have been subjected to early processing, likely driven by low-level information during P100 time window, followed by a later decoding of facial structure and its emotional content in the N170 time window. In sum, this thesis helped elucidate elements of the debate about configural and part-based face processing for emotion recognition, and extend our current understanding of the role of diagnostic features and configural information during neurocognitive processing of facial expressions of emotion.
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Untersuchung von Gesichterpriming und Lokalisation dipolarer Quellorte der Gesichterverarbeitung in Magneto- und ElektroenzephalogrammDeffke, Iris 13 October 2006 (has links)
Die Verarbeitung unbekannter und visuell vertrauter Gesichter wurde mittels simultaner Messung von Elektroenzephalogramm (EEG), Magnetoenzephalogramm (MEG) und Verhaltensreaktionen untersucht. Dipollokalisationen zeigten, dass MEG und EEG bei 170 ms und 400 bis 500 ms nach Beginn von Gesichterdarbietungen Aktivierung der posterioren Gyri fusiformes (GF) abbilden. Damit konnten beide Zeitbereiche als Aktivität des fusiformen Gesichterareals interpretiert werden. In einem Primingparadigma wurde bei viermaliger Wiederholung unbekannter Gesichter ein Reaktionszeitpriming gezeigt, das für Wiederholungen mit einem Zeitabstand (Lag) von Sekunden stärker als für mehrere Minuten war. Im EEG bewirkten nur Wiederholungen mit kurzem Lag einen Wiederholungseffekt von 300 ms bis 600 ms an posterioren und zentralen Elektroden. Dieser wurde als Korrelat impliziter Gedächtnisverarbeitung von Gesichtern im GF interpretiert. Ein frontaler Wiederholungseffekt ab 700 ms wurde als Ausdruck inzidentellen Erkennens der Gesichterwiederholungen angesehen. Das MEG zeigte posterior einen Wiederholungseffekt ab 800 ms für das kurze Lag. Für das lange Lag wurden keine MEG- oder EEG-Effekte gefunden. Die Wiederholung des Primingexperimentes mit den in einem Lerntraining vertraut gewordenen Gesichtern erzeugte eine generelle Verkürzung der Reaktionszeiten, aber eine Abschwächung des Primingeffektes für das kurze Lag und einen Verlust der Abhängigkeit der Primingstärke vom Zeitabstand. Diese Veränderungen gingen im EEG mit dem Trend zur Verstärkung des posterioren Wiederholungseffektes ab 500 ms einher. Im MEG konnte für die vertrauten Gesichter ein dem EEG in Zeit und Entstehungsort analoger Wiederholungseffekt gezeigt werden. Die Ergebnisse der Untersuchung von Priming bringen Evidenz für die Existenz von Primingeffekten für unbekannte Gesichter. Sie zeigen die Abhängigkeit der Primingeffekte vom Wiederholungsabstand und die Veränderung von Primingeffekten beim Erwerb visueller Vertrautheit. / The processing of unfamiliar and visually familiar faces was examined in a simultaneous measurement of Electroencephalogram (EEG), Magnetoencephalogram (MEG) and behavioural reactions during the presentation of a priming task. Dipole modelling on the EEG and MEG data localized activity in posterior fusiform gyri around 170 ms and between 400 and 500 ms post stimulus onset. Both time ranges were interpreted as activity correlates of the fusiform face area. In the priming paradigm unfamiliar faces were repeated four times. A reaction time priming effect could be shown. This effect was stronger for a short lag (seconds) between repetitions than for minutes. In EEG, only repetitions with short lag evoked a repetition effect at posterior and central electrodes between 300 and 600 ms. This effect was interpreted as a correlate of implicit memory processes presumably generated in the fusiform gyrus. A frontal repetition effect starting around 700 ms was considered a reflection of the incidental recognition of the face repetitions. The MEG data showed a repetition effect for the short lag starting at 800 ms. No electrophysiological effects of face repetition were found for the long lag. Some months later, the same subjects were visually familiarized with the faces in three learning sessions and the priming experiment was repeated. An overall shortening of reaction times was found together with a weakening of the priming effect for the short lag and an absence of the lag’s influence on the strength of the priming effects. In the EEG data a trend for a strengthening of the posterior repetition effect from 500 ms onward emerged. The MEG data yielded a repetition effect for the familiar faces that was analogous to the EEG effect. The results of the priming task give evidence for the existence of priming effects for unfamiliar and familiar faces. They furthermore demonstrate the dependency of priming effects on the lag between repetitions and the visual familiarity of the faces.
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Facial affect processing in delusion-prone and deluded individuals: A continuum approach to the study of delusion formationGreen, Melissa Jayne January 2002 (has links)
This thesis examines attentional and cognitive biases for particular facial expressions in delusion-prone and deluded individuals. The exploration of cognitive biases in delusion-prone individuals provides one means of elucidating psychological processes that might be involved in the genesis of delusions. Chapter 1 provides a brief review of the continuum approach to schizophrenia, and outlines recent theoretical conceptualisations of delusions. The study of schizophrenia phenomena at the symptom level has become a popular method of inquiry, given the heterogeneous phenotypic expression of schizophrenia, and the uncertainty surrounding the existence of a core neuropathology. Delusions are one of the most commonly experienced symptoms of schizophrenia, and have traditionally been regarded as fixed, false beliefs that are pathognomonic of an organic disease process. However, recent phenomenological evidence of delusional ideation in the general population has led to the conceptualisation of delusions as multi-dimensional entities, lying at the extreme end of a continuum from normal through to maladaptive beliefs. Recent investigations of the information processing abnormalities in deluded individuals are reviewed in Chapter 2. This strand of research has revealed evidence of various biases in social cognition, particularly in relation to threat-related material, in deluded individuals. These biases are evident in probabilistic reasoning, attribution style, and attention, but there has been relatively little investigation of cognitive aberrations in delusion-prone individuals. In the present thesis, social-cognitive biases were examined in relation to a standard series of faces that included threat-related (anger, fear) and non-threatening (happy, sad) expressions, in both delusion-prone and clinically deluded individuals. Chapters 3 and 4 present the results of behavioural (RT, affect recognition accuracy) and visual scanpath investigations in healthy participants assessed for level of delusion- proneness. The results indicate that delusion-prone individuals are slower at processing angry faces, and show a general (rather than emotion-specific) impairment in facial affect recognition, compared to non-prone healthy controls. Visual scanpath studies show that healthy individuals tend to direct more foveal fixations to the feature areas (eyes, nose, mouth) of threat-related facial expressions (anger, fear). By contrast, delusion-prone individuals exhibit reduced foveal attention to threat-related faces, combined with �extended� scanpaths, that may be interpreted as an attentional pattern of �vigilance-avoidance� for social threat. Chapters 5 and 6 extend the work presented in Chapters 3 and 4, by investigating the presence of similar behavioural and attentional biases in deluded schizophrenia, compared to healthy control and non-deluded schizophrenia groups. Deluded schizophrenia subjects exhibited a similar delay in processing angry faces, compared to non-prone control participants, while both deluded and non-deluded schizophrenia groups displayed a generalised affect recognition deficit. Visual scanpath investigations revealed a similar style of avoiding a broader range of negative (anger, fear, sad) faces in deluded schizophrenia, as well as a common pattern of fewer fixations with shorter duration, and reduced attention to facial features of all faces in both deluded and non-deluded schizophrenia. The examination of inferential biases for emotions displayed in facial expressions is presented in Chapter 7 in a study of causal attributional style. The results of this study provide some support for a �self-serving� bias in deluded schizophrenia, as well as evidence for an inability to appreciate situational cues when making causal judgements in both delusion-prone and deluded schizophrenia. A theoretical integration of the current findings is presented in Chapter 8, with regard to the implications for cognitive theories of delusions, and neurobiological models of schizophrenia phenomena, more generally. Visual attention biases for threat-related facial expressions in delusion-prone and deluded schizophrenia are consistent with proposals of neural dysconnectivity between frontal-limbic networks, while attributional biases and impaired facial expression perception may reflect dysfunction in a broader �social brain� network encompassing these and medial temporal lobe regions. Strong evidence for attentional biases and affect recognition deficits in delusion-prone individuals implicates their role in the development of delusional beliefs, but the weaker evidence for attributional biases in delusion-prone individuals suggests that inferential biases about others� emotions may be relevant only to the maintenance of delusional beliefs (or that attributional biases for others� emotional states may reflect other, trait-linked difficulties related to mentalising ability). In summary, the work presented in this thesis demonstrates the utility of adopting a single-symptom approach to schizophrenia within the continuum framework, and attests to the importance of further investigations of aberrant social cognition in relation to the development of delusions.
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The effect of facial expression and identity information on the processing of own and other race facesHirose, Yoriko January 2006 (has links)
The central aim of the current thesis was to examine how facial expression and racial identity information affect face processing involving different races, and this was addressed by studying several types of face processing tasks including face recognition, emotion perception/recognition, face perception and attention to faces. In particular, the effect of facial expression on the differential processing of own and other race faces (the so-called the own-race bias) was examined from two perspectives, examining the effect both at the level of perceptual expertise favouring the processing of own-race faces and in-group bias influencing face processing in terms of a self-enhancing dimension. Results from the face recognition study indicated a possible similarity between familiar/unfamiliar and own-race/other-race face processing. Studies on facial expression perception and memory showed that there was no indication of in-group bias in face perception and memory, although a common finding throughout was that different race faces were often associated with different types of facial expressions. The most consistent finding across all studies was that the effect of the own-race bias was more evident amongst European participants. Finally, results from the face attention study showed that there were no signs of preferential visual attention to own-race faces. The results from the current research provided further evidence to the growing body of knowledge regarding the effects of the own-race bias. Based on this knowledge, for future studies it is suggested that a better understanding of the mechanisms underlying the own-race bias would help advance this interesting and ever-evolving area of research further.
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Facial affect processing in delusion-prone and deluded individuals: A continuum approach to the study of delusion formationGreen, Melissa Jayne January 2002 (has links)
This thesis examines attentional and cognitive biases for particular facial expressions in delusion-prone and deluded individuals. The exploration of cognitive biases in delusion-prone individuals provides one means of elucidating psychological processes that might be involved in the genesis of delusions. Chapter 1 provides a brief review of the continuum approach to schizophrenia, and outlines recent theoretical conceptualisations of delusions. The study of schizophrenia phenomena at the symptom level has become a popular method of inquiry, given the heterogeneous phenotypic expression of schizophrenia, and the uncertainty surrounding the existence of a core neuropathology. Delusions are one of the most commonly experienced symptoms of schizophrenia, and have traditionally been regarded as fixed, false beliefs that are pathognomonic of an organic disease process. However, recent phenomenological evidence of delusional ideation in the general population has led to the conceptualisation of delusions as multi-dimensional entities, lying at the extreme end of a continuum from normal through to maladaptive beliefs. Recent investigations of the information processing abnormalities in deluded individuals are reviewed in Chapter 2. This strand of research has revealed evidence of various biases in social cognition, particularly in relation to threat-related material, in deluded individuals. These biases are evident in probabilistic reasoning, attribution style, and attention, but there has been relatively little investigation of cognitive aberrations in delusion-prone individuals. In the present thesis, social-cognitive biases were examined in relation to a standard series of faces that included threat-related (anger, fear) and non-threatening (happy, sad) expressions, in both delusion-prone and clinically deluded individuals. Chapters 3 and 4 present the results of behavioural (RT, affect recognition accuracy) and visual scanpath investigations in healthy participants assessed for level of delusion- proneness. The results indicate that delusion-prone individuals are slower at processing angry faces, and show a general (rather than emotion-specific) impairment in facial affect recognition, compared to non-prone healthy controls. Visual scanpath studies show that healthy individuals tend to direct more foveal fixations to the feature areas (eyes, nose, mouth) of threat-related facial expressions (anger, fear). By contrast, delusion-prone individuals exhibit reduced foveal attention to threat-related faces, combined with �extended� scanpaths, that may be interpreted as an attentional pattern of �vigilance-avoidance� for social threat. Chapters 5 and 6 extend the work presented in Chapters 3 and 4, by investigating the presence of similar behavioural and attentional biases in deluded schizophrenia, compared to healthy control and non-deluded schizophrenia groups. Deluded schizophrenia subjects exhibited a similar delay in processing angry faces, compared to non-prone control participants, while both deluded and non-deluded schizophrenia groups displayed a generalised affect recognition deficit. Visual scanpath investigations revealed a similar style of avoiding a broader range of negative (anger, fear, sad) faces in deluded schizophrenia, as well as a common pattern of fewer fixations with shorter duration, and reduced attention to facial features of all faces in both deluded and non-deluded schizophrenia. The examination of inferential biases for emotions displayed in facial expressions is presented in Chapter 7 in a study of causal attributional style. The results of this study provide some support for a �self-serving� bias in deluded schizophrenia, as well as evidence for an inability to appreciate situational cues when making causal judgements in both delusion-prone and deluded schizophrenia. A theoretical integration of the current findings is presented in Chapter 8, with regard to the implications for cognitive theories of delusions, and neurobiological models of schizophrenia phenomena, more generally. Visual attention biases for threat-related facial expressions in delusion-prone and deluded schizophrenia are consistent with proposals of neural dysconnectivity between frontal-limbic networks, while attributional biases and impaired facial expression perception may reflect dysfunction in a broader �social brain� network encompassing these and medial temporal lobe regions. Strong evidence for attentional biases and affect recognition deficits in delusion-prone individuals implicates their role in the development of delusional beliefs, but the weaker evidence for attributional biases in delusion-prone individuals suggests that inferential biases about others� emotions may be relevant only to the maintenance of delusional beliefs (or that attributional biases for others� emotional states may reflect other, trait-linked difficulties related to mentalising ability). In summary, the work presented in this thesis demonstrates the utility of adopting a single-symptom approach to schizophrenia within the continuum framework, and attests to the importance of further investigations of aberrant social cognition in relation to the development of delusions.
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Les bases cognitives et cérébrales du traitement sémantique des personnes célèbres : étude chez le jeune adulte et la personne âgée saine, atteinte de TCL, ou de dépressionBrunet, Julie 06 1900 (has links)
No description available.
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Reconhecimento de faces familiares em indivíduos com síndrome de Asperger e transtorno invasivo do desenvolvimento sem outra especificação / Reconhecimento de faces familiares em indivíduos com síndrome de Asperger e transtorno invasivo do desenvolvimento sem outra especificaçãoLourenção, Luciana Cristina 14 August 2008 (has links)
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Previous issue date: 2008-08-14 / Pervasive Developmental Disorders (PDD) refer to a group of persistent and long-lasting behavioral disturbances characterized by qualitative implications on communication and social interaction, restrictive patterns of interests and stereotyped behaviors. Evidences have pointed to an atypical style of visual processing in autism, which is a condition belonging to PDD. This research was carried out in order to verify the familial and not familial face processing in children with Asperger syndrome (AS) or with Not Specified PDD (PDD-NOS) and to compare it with the same processing in control-children. Pictures of holistic faces (whole face and profile) and of parts of the face (eyes, nose and mouth) were presented to the children in a computer screen. The case-group refers to seven children with AS or PDD-NOS, and the control-group included other seven children with typical development. Children were 6-12 year old. All children had minimal IQ = 70 (WISC). Diagnoses of AS and PDD-NOS was established by the application of the Autism Screening Questionnaire (ASQ) and the Screening Questionnaire for Asperger Syndrome (ASSQ). Significant differences (p = 0,018) were observed inside the case-group when compared the success frequencies of familial (100%) and not familial (42%) faces. There were no significant differences between case and control groups in relation with success frequencies and time spent for familial whole faces processing. It is supposed that individuals with AS or PDD-NOS are able to develop an holistic style for processing very close familial whole faces. / Os Transtornos Invasivos do Desenvolvimento (TID) constituem um grupo de desordens do comportamento duradouras e persistentes que se caracterizam por comprometimento qualitativo da comunicação e da interação social, padrões restritos de interesses e presença de comportamentos estereotipados e maneirismos. Evidências crescentes mostram um estilo de processamento visual atípico no autismo, que faz parte desse grupo de desordens. O objetivo deste estudo foi verificar o reconhecimento de faces familiares e não familiares em indivíduos com síndrome de Asperger (SA) e com TID Sem Outra Especificação (TID-SOE) e compará-lo com o de um grupo-controle. Para tanto, utilizaram-se figuras de faces familiares holísticas (face inteira e perfil) ou de partes da face (olho, nariz e boca). Participaram da pesquisa 14 crianças do sexo masculino com idades variando de 6 a 12 anos. As sete crianças com SA e TID-SOE formaram o grupo-caso, e outras sete com desenvolvimento típico, o grupo-controle. Foi estabelecido como critério de inclusão QI mínimo de 70, avaliado pelo WISC em toda a amostra. As crianças do grupo-caso foram avaliadas com a aplicação do Autism Screening Questionnaire (ASQ) e do Screening Questionnaire for Asperger Syndrome (ASSQ). Considerando o grupo-caso, encontrou-se diferença significativa (p = 0,018) nos acertos quando comparadas figuras de faces familiares (100%) e não familiares (42%). Não foram observadas diferenças entre os grupos em relação ao número de acertos e ao tempo necessário para o reconhecimento da prancha familiar de face inteira. Supõe-se que os indivíduos com SA e TID-SOE conseguem desenvolver uma forma holística de processamento mediante uma face inteira familiar muito íntima.
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Gaze Behaviour and Its Functional Role During Facial Expression RecognitionDietrich, Jonas 06 March 2019 (has links)
Die visuelle Enkodierung emotionaler Gesichtsausdrücke stellt bisher ein Rätsel dar. Ziel der vorliegenden Dissertation war es daher, durch die Untersuchung von Blickbewegungen und ihrer Funktionalität für das Erkennen von Gesichtsausdrücken, neue Erkenntnisse zu den zugrundeliegenden Prozessen zu liefern. In vier Blickbewegungsexperimenten, in denen Probanden ärgerliche, angeekelte, fröhliche, traurige und neutrale Gesichtsausdrücke in statischer und dynamischer Darbietung kategorisieren sollten, wurde untersucht, ob allgemeine Strategien der Gesichterverarbeitung bereits auf der Ebene der visuellen Enkodierung anhand spezifischer Blickbewegungsmuster zu identifizieren sind und ob Unterschiede bei der initialen Aufnahme visueller Information als Folge unterschiedlicher Fixationspositionen das Erkennen von Gesichtsausdrücken beeinflussen. Die Ergebnisse zeigten, dass für statische Gesichtsausdrücke nur sehr wenige Fixationen gemacht werden, die hauptsächlich auf das Zentrum des Gesichts und auf emotionsspezifische, diagnostische Gesichtsmerkmale gerichtet sind, was eine kombiniert holistisch-merkmalsorientierte Enkodierungsstrategie nahelegt. Für weniger intensive und dynamische Gesichtsausdrücke deuten die Ergebnisse auf eine stärker konfigurale Enkodierungsstrategie mit mehreren Fixationen zu einer größeren Anzahl unterschiedlicher Gesichtsmerkmale hin. Darüber hinaus waren Blickbewegungsunterschiede relevant für die Emotionserkennung. Die Fixation diagnostischer Gesichtsmerkmale beschleunigte das Erkennen statischer Gesichtsausdrücke. Für das Erkennen dynamischer Gesichtsausdrücke war hingegen eine zentrale Fixationsposition vorteilhaft, vermutlich durch die Förderung von holistischer Gesichterverarbeitung und Veränderungserkennung. Insgesamt zeigte sich, dass allgemeine Strategien der Gesichterverarbeitung bereits auf der Ebene der visuellen Enkodierung identifizierbar sind und dass Unterschiede in diesen frühen Prozessen die Erkennungsleistung beeinflussen. / Processes that underlie the visual encoding of facial expressions still pose a conundrum. Therefore, this dissertation set out to provide new insights into these processes by investigating gaze behaviour and its functional role during the recognition of facial expressions. Four experimental studies were conducted to examine whether general face processing strategies are already reflected on the visual encoding stage of facial expression recognition indicated by specific fixation patterns and whether differences at the initial uptake of visual information as a consequence of varying fixation positions affect facial expression recognition. Gaze behaviour was recorded while participants were asked to categorise angry, disgusted, happy, sad, and neutral facial expressions in static and dynamic displays. Results revealed that gaze behaviour for static facial expressions was characterised by only a few fixations mainly directed to the centre and to expression-specific diagnostic facial features of the face, suggesting a combined holistic and featural encoding strategy. For less intense and dynamic facial expressions, results indicated a more configural encoding strategy with multiple fixations to a greater number of different facial features. In addition, differences in gaze strategy were relevant for facial expression recognition. Fixating diagnostic facial features accelerated the recognition of static facial expressions. In contrast, a central fixation position was beneficial for recognizing dynamic facial expressions, presumably by facilitating holistic face processing and change detection. Overall, findings demonstrated that general face processing strategies are already reflected on the visual encoding stage of facial expression recognition and that variations in these early processes affect recognition performance.
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Modulation de l'apprentissage visuel par stimulation électrique transcrânienne à courant direct du cortex préfrontalLafontaine, Marc Philippe 08 1900 (has links)
Le traitement visuel répété d’un visage inconnu entraîne une suppression de l’activité neuronale dans les régions préférentielles aux visages du cortex occipito-temporal. Cette «suppression neuronale» (SN) est un mécanisme primitif hautement impliqué dans l’apprentissage de visages, pouvant être détecté par une réduction de l’amplitude de la composante N170, un potentiel relié à l’événement (PRE), au-dessus du cortex occipito-temporal. Le cortex préfrontal dorsolatéral (CPDL) influence le traitement et l’encodage visuel, mais sa contribution à la SN de la N170 demeure inconnue. Nous avons utilisé la stimulation électrique transcrânienne à courant direct (SETCD) pour moduler l’excitabilité corticale du CPDL de 14 adultes sains lors de l’apprentissage de visages inconnus. Trois conditions de stimulation étaient utilisées: inhibition à droite, excitation à droite et placebo. Pendant l’apprentissage, l’EEG était enregistré afin d’évaluer la SN de la P100, la N170 et la P300. Trois jours suivant l’apprentissage, une tâche de reconnaissance était administrée où les performances en pourcentage de bonnes réponses et temps de réaction (TR) étaient enregistrées. Les résultats indiquent que la condition d’excitation à droite a facilité la SN de la N170 et a augmentée l’amplitude de la P300, entraînant une reconnaissance des visages plus rapide à long-terme. À l’inverse, la condition d’inhibition à droite a causé une augmentation de l’amplitude de la N170 et des TR plus lents, sans affecter la P300. Ces résultats sont les premiers à démontrer que la modulation d’excitabilité du CPDL puisse influencer l’encodage visuel de visages inconnus, soulignant l’importance du CPDL dans les mécanismes d’apprentissage de base. / Repeated visual processing of an unfamiliar face suppresses neural activity in face-specific areas of the occipito-temporal cortex. This "repetition suppression" (RS) is a primitive mechanism involved in learning of unfamiliar faces, which can be detected through amplitude reduction of the N170 event-related potential (ERP). The dorsolateral prefrontal cortex (DLPFC) exerts top-down influence on early visual processing. However, its contribution to N170 RS and learning of unfamiliar faces remains unclear. Transcranial direct current stimulation (tDCS) transiently increases or decreases cortical excitability, as a function of polarity. We hypothesized that DLPFC excitability modulation by tDCS would cause polarity-dependent modulations of N170 RS during encoding of unfamiliar faces. tDCS-induced N170 RS enhancement would improve long-term recognition reaction time (RT) and/or accuracy rates, whereas N170 RS impairment would compromise recognition ability. Participants underwent three tDCS conditions in random order at ~72 hour intervals: right anodal/left cathodal, right cathodal/left anodal and sham. Immediately following tDCS conditions, an EEG was recorded during encoding of unfamiliar faces for assessment of P100 and N170 visual ERPs. P300 was analyzed to detect prefrontal function modulation. Recognition tasks were administered ~72 hours following encoding. Results indicate the right anodal/left cathodal condition facilitated N170 RS and induced larger P300 amplitudes, leading to faster recognition RT. Conversely, the right cathodal/left anodal condition caused increases in N170 amplitudes and RT, but did not affect P300. These data are the first to demonstrate that DLPFC excitability modulation can influence early visual encoding of unfamiliar faces, highlighting the importance of DLPFC in basic learning mechanisms.
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Modulation de l'apprentissage visuel par stimulation électrique transcrânienne à courant direct du cortex préfrontalLafontaine, Marc Philippe 08 1900 (has links)
Le traitement visuel répété d’un visage inconnu entraîne une suppression de l’activité neuronale dans les régions préférentielles aux visages du cortex occipito-temporal. Cette «suppression neuronale» (SN) est un mécanisme primitif hautement impliqué dans l’apprentissage de visages, pouvant être détecté par une réduction de l’amplitude de la composante N170, un potentiel relié à l’événement (PRE), au-dessus du cortex occipito-temporal. Le cortex préfrontal dorsolatéral (CPDL) influence le traitement et l’encodage visuel, mais sa contribution à la SN de la N170 demeure inconnue. Nous avons utilisé la stimulation électrique transcrânienne à courant direct (SETCD) pour moduler l’excitabilité corticale du CPDL de 14 adultes sains lors de l’apprentissage de visages inconnus. Trois conditions de stimulation étaient utilisées: inhibition à droite, excitation à droite et placebo. Pendant l’apprentissage, l’EEG était enregistré afin d’évaluer la SN de la P100, la N170 et la P300. Trois jours suivant l’apprentissage, une tâche de reconnaissance était administrée où les performances en pourcentage de bonnes réponses et temps de réaction (TR) étaient enregistrées. Les résultats indiquent que la condition d’excitation à droite a facilité la SN de la N170 et a augmentée l’amplitude de la P300, entraînant une reconnaissance des visages plus rapide à long-terme. À l’inverse, la condition d’inhibition à droite a causé une augmentation de l’amplitude de la N170 et des TR plus lents, sans affecter la P300. Ces résultats sont les premiers à démontrer que la modulation d’excitabilité du CPDL puisse influencer l’encodage visuel de visages inconnus, soulignant l’importance du CPDL dans les mécanismes d’apprentissage de base. / Repeated visual processing of an unfamiliar face suppresses neural activity in face-specific areas of the occipito-temporal cortex. This "repetition suppression" (RS) is a primitive mechanism involved in learning of unfamiliar faces, which can be detected through amplitude reduction of the N170 event-related potential (ERP). The dorsolateral prefrontal cortex (DLPFC) exerts top-down influence on early visual processing. However, its contribution to N170 RS and learning of unfamiliar faces remains unclear. Transcranial direct current stimulation (tDCS) transiently increases or decreases cortical excitability, as a function of polarity. We hypothesized that DLPFC excitability modulation by tDCS would cause polarity-dependent modulations of N170 RS during encoding of unfamiliar faces. tDCS-induced N170 RS enhancement would improve long-term recognition reaction time (RT) and/or accuracy rates, whereas N170 RS impairment would compromise recognition ability. Participants underwent three tDCS conditions in random order at ~72 hour intervals: right anodal/left cathodal, right cathodal/left anodal and sham. Immediately following tDCS conditions, an EEG was recorded during encoding of unfamiliar faces for assessment of P100 and N170 visual ERPs. P300 was analyzed to detect prefrontal function modulation. Recognition tasks were administered ~72 hours following encoding. Results indicate the right anodal/left cathodal condition facilitated N170 RS and induced larger P300 amplitudes, leading to faster recognition RT. Conversely, the right cathodal/left anodal condition caused increases in N170 amplitudes and RT, but did not affect P300. These data are the first to demonstrate that DLPFC excitability modulation can influence early visual encoding of unfamiliar faces, highlighting the importance of DLPFC in basic learning mechanisms.
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