@phdthesis{Schulz2009,
  author    = {Schulz, Stefan M.},
  title     = {Mediators of Social Anxiety - External Social Threat-Cues vs. Self-Related Negative Cognitions},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-44684},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2009},
  abstract  = {Sozial {\"a}ngstliche Menschen richten ihre Aufmerksamkeit in sozial bedrohlichen Situationen nach innen auf selbstbezogene negative Gedanken (z.B. „Ich schaffe das nicht!"). Außerdem richten sie ihre Aufmerksamkeit unwillk{\"u}rlich bevorzugt auf potenziell bedrohliche soziale Umweltreize und beurteilen diese im Vergleich zu niedrig sozial {\"a}ngstlichen Kontrollpersonen besonders negativ. Einschl{\"a}gige Modelle und die Fachliteratur lassen den Schluss zu, dass selbstbezogene negative Gedanken und die systematisch verzerrte Verarbeitung bedrohlicher sozialer Umweltreize Mediatoren f{\"u}r Zusammenh{\"a}nge zwischen sozialer {\"A}ngstlichkeit und akuter Angst in sozial bedrohlichen Situationen sind. Zudem finden sich Hinweise auf Wechselwirkungen zwischen den angenommenen Mediatoren. Auf dieser Grundlage wurde ein Arbeitsmodell zu Mediatoren sozialer Angst erstellt. In drei Experimenten wurden von diesem Modell abgeleitete Hypothesen {\"u}berpr{\"u}ft. Die Ergebnisse der drei Experimente zeigten eindrucksvoll in subjektiven und physiologischen Daten (Herzratenvariabilit{\"a}t bzw. parasympathische Aktivierung), dass selbstbezogene negative Gedanken tats{\"a}chlich ein Mediator sozialer Angst sind. Im Vergleich dazu spielt die verzerrte automatische Verarbeitung bedrohlicher sozialer Umweltreize zumindest in {\"o}kologisch validen, sozial bedrohlichen Situationen eine vernachl{\"a}ssigbare Rolle.},
  subject      = {Sozialangst},
  language  = {en}
}
@phdthesis{Pahl2011,
  author    = {Pahl, Mario},
  title     = {Honeybee Cognition: Aspects of Learning, Memory and Navigation in a Social Insect},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-66165},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2011},
  abstract  = {Honeybees (Apis mellifera) forage on a great variety of plant species, navigate over large distances to crucial resources, and return to communicate the locations of food sources and potential new nest sites to nest mates using a symbolic dance language. In order to achieve this, honeybees have evolved a rich repertoire of adaptive behaviours, some of which were earlier believed to be restricted to vertebrates. In this thesis, I explore the mechanisms involved in honeybee learning, memory, numerical competence and navigation. The findings acquired in this thesis show that honeybees are not the simple reflex automats they were once believed to be. The level of sophistication I found in the bees' memory, their learning ability, their time sense, their numerical competence and their navigational abilities are surprisingly similar to the results obtained in comparable experiments with vertebrates. Thus, we should reconsider the notion that a bigger brain automatically indicates higher intelligence.},
  subject      = {Biene},
  language  = {en}
}
@phdthesis{Pieczykolan2016,
  author    = {Pieczykolan, Aleksandra},
  title     = {Cross-Modal Action Control},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-142356},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2016},
  abstract  = {Multitasking als allgegenw{\"a}rtiges Ph{\"a}nomen wird heutzutage in verschiedenen wissenschaftlichen Disziplinen diskutiert. In der vorliegenden Arbeit wird Multitasking aus der Perspektive der kognitiven Verhaltenswissenschaften beleuchtet mit dem Fokus auf der Rolle von Konfliktl{\"o}sungs- prozessen bei der Verarbeitung von Mehrfacht{\"a}tigkeiten. Insbesondere liegt der Fokus auf kognitiven Mechanismen der crossmodalen Handlungskontrolle, d.h. der Kontrolle von zwei Handlungen in verschiedenen Effektorsystemen. Mit dem Ziel, den bisherigen Umfang derjenigen Handlungsmodalit{\"a}ten zu erweitern, die {\"u}blicherweise in Studien eingesetzt wurden, wurden okulomotorische Reaktionen (d.h. Sakkaden), die bisher als Handlungsmodalit{\"a}t in der Forschung vernachl{\"a}ssigt wurden, in Kombination mit Reaktionen in anderen Efffektorsystemen untersucht (d.h. mit manuellen und vokalen Reaktionen). Weiterhin wurde beabsichtigt, Mechanismen von Crosstalk zu spezifizieren, welches ein Erkl{\"a}rungskonzept darstellt, das sich auf den Aufgabeninhalt bezieht. Crosstalk erscheint besonders relevant f{\"u}r crossmodale Handlungen, da sich Handlungsmodalit{\"a}ten vor allem bez{\"u}glich ihrer Reaktionsmerkmale unterscheiden. In der vorliegenden Arbeit werden vier Studien berichtet, die auf jeweils zwei oder drei Experimenten beruhen. In Studie A wurden crossmodale Doppelreaktionen auf einen einzelnen Stimulus untersucht mit der Fragestellung, wie sich das Zusammenspiel des Vorhandenseins von Reaktionsalternativen und der Kompatibilit{\"a}t zwischen Reaktionen (also dem Crosstalkpotential) auswirkt. In drei Experimenten zeigte sich, dass Crosstalk in mehrere Komponenten dissoziiert werden kann, n{\"a}mlich eine Komponente, die auf der aktuellen Konfliktst{\"a}rke (Online-Crosstalk) basiert, und eine ged{\"a}chtnisbasierte Komponente, die entweder durch Restaktivit{\"a}t vergangener Handlungsanforderungen bestimmt wird (retrospektiver Crosstalk), oder durch Vorbereitung auf zuk{\"u}nftige Handlungsanforderungen (prospektiver Crosstalk). Studie B lieferte Evidenz daf{\"u}r, dass okulomotorische Reaktionen sowohl struktureller als auch inhaltsbasierte Interferenz unterliegen. In drei Experimenten wurde das Paradigma zeitlich {\"u}berlappender Aufgaben verwendet, bei dem zwei Stimuli mit zeitlichem Versatz pr{\"a}sentiert wurden, auf die jeweils mit einer okulomotorischen und einer manuellen Handlung reagiert werden musste. Dabei wurden sowohl Hinweise auf einen seriellen als auch auf einen parallelen Verarbeitungsmodus gefunden. Weiterhin deuteten die Ergebnisse darauf hin, dass abh{\"a}ngig von der Aufgabenkompatibilit{\"a}t zwischen diesen Verarbeitungsmodi gewechselt wurde, d.h. zu eher paralleler Verarbeitung bei kompatiblen Aufgabenanforderungen und zu eher serieller Verarbeitung bei inkompatiblen Aufgabenanforderungen. In Studie C wurden Verarbeitungspriorit{\"a}ten zwischen Effektorsystemen untersucht. In zwei Experimenten zeigte sich, dass das zuvor berichtete Verarbeitungsdominanzmuster repliziert werden konnte, bei der okulomotorische Reaktionen vokale Reaktionen dominieren und diese wiederum manuelle Reaktionen dominieren. Die relative St{\"a}rke der Dominanz konnte allerdings bei vorhandenem Reaktionskonflikt angepasst werden. Die Verarbeitungspriorit{\"a}ten wurden hierbei zum Teil in Richtung derjenigen Reaktion verschoben, in der bereits ein Konflikt im Bezug auf die Kompatibilit{\"a}t zwischen Stimulus und Reaktion gel{\"o}st werden musste. Dieses Ergebnis zeigt, dass Verarbeitungspriorit{\"a}ten flexibel an die spezifischen Handlungsanforderungen angepasst werden k{\"o}nnen. Studie D besch{\"a}ftigte sich mit einem bisher weitgehend vernachl{\"a}ssigten Bereich innerhalb der Doppelaufgabenforschung, n{\"a}mlich der Kontrolle der zeitlichen Reaktionsreihenfolge. In einer drei Experimente umfassenden Untersuchung wurden mehrere Faktoren variiert, die sich in fr{\"u}heren Studien bereits als relevant f{\"u}r Mechanismen der Doppelaufgabeninterferenz gezeigt haben. In der vorliegenden Studie wurde gezeigt, dass die finale Reaktionsreihenfolge in einem Handlungsdurchgang das Ergebnis eines kontinuierlichen Anpassungsprozesses ist, welcher auf dem Zusammenspiel mehrerer top-down-Faktoren, z.B. der Antizipation von Reaktionsmerkmalen, und mehrerer bottom-up-Faktoren, wie z.B. der Stimulusreihenfolge oder der Aufgabenkompatibilit{\"a}t, basiert. Die vorliegende Arbeit liefert somit einen wichtigen Beitrag zum Fortschritt des Verst{\"a}ndnisses der Verarbeitung komplexer Handlungsanforderungen aus der Perspektive crossmodaler Handlungen. Insbesondere wurden Spezifikationen f{\"u}r Mechanismen der Effektorpriorisierung und der Kontrolle der Reaktionsreihenfolge als auch eine neuartige Taxonomie von Crosstalk vorgestellt, welche als umfassende Rahmenvorstellung zur Erkl{\"a}rung von Interferenzmechanismen bei Kontrollprozessen von Mehrfachanforderungen dienlich sein kann.},
  subject      = {Kognition},
  language  = {en}
}
@phdthesis{Huestegge2019,
  author    = {Huestegge, Sujata Maya},
  title     = {Cognitive mechanisms of voice processing},
  doi       = {10.25972/OPUS-18608},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-186086},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {The present thesis addresses cognitive processing of voice information. Based on general theoretical concepts regarding mental processes it will differentiate between modular, abstract information processing approaches to cognition and interactive, embodied ideas of mental processing. These general concepts will then be transferred to the context of processing voice-related information in the context of parallel face-related processing streams. One central issue here is whether and to what extent cognitive voice processing can occur independently, that is, encapsulated from the simultaneous processing of visual person-related information (and vice versa). In Study 1 (Huestegge \& Raettig, in press), participants are presented with audio-visual stimuli displaying faces uttering digits. Audiovisual gender congruency was manipulated: There were male and female faces, each uttering digits with either a male or female voice (all stimuli were AV- synchronized). Participants were asked to categorize the gender of either the face or the voice by pressing one of two keys in each trial. A central result was that audio-visual gender congruency affected performance: Incongruent stimuli were categorized slower and more error-prone, suggesting a strong cross-modal interaction of the underlying visual and auditory processing routes. Additionally, the effect of incongruent visual information on auditory classification was stronger than the effect of incongruent auditory information on visual categorization, suggesting visual dominance over auditory processing in the context of gender classification. A gender congruency effect was also present under high cognitive load. Study 2 (Huestegge, Raettig, \& Huestegge, in press) utilized the same (gender-congruent and -incongruent) stimuli, but different tasks for the participants, namely categorizing the spoken digits (into odd/even or smaller/larger than 5). This should effectively direct attention away from gender information, which was no longer task-relevant. Nevertheless, congruency effects were still observed in this study. This suggests a relatively automatic processing of cross-modal gender information, which eventually affects basic speech-based information processing. Study 3 (Huestegge, subm.) focused on the ability of participants to match unfamiliar voices to (either static or dynamic) faces. One result was that participants were indeed able to match voices to faces. Moreover, there was no evidence for any performance increase when dynamic (vs. mere static) faces had to be matched to concurrent voices. The results support the idea that common person-related source information affects both vocal and facial features, and implicit corresponding knowledge appears to be used by participants to successfully complete face-voice matching. Taken together, the three studies (Huestegge, subm.; Huestegge \& Raettig, in press; Huestegge et al., in press) provided information to further develop current theories of voice processing (in the context of face processing). On a general level, the results of all three studies are not in line with an abstract, modular view of cognition, but rather lend further support to interactive, embodied accounts of mental processing.},
  subject      = {Stimme},
  language  = {en}
}
@phdthesis{Weller2019,
  author    = {Weller, Lisa},
  title     = {How to not act? Cognitive foundations of intentional nonactions},
  doi       = {10.25972/OPUS-17667},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-176678},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Human actions are generally not determined by external stimuli, but by internal goals and by the urge to evoke desired effects in the environment. To reach these effects, humans typically have to act. But at times, deciding not to act can be better suited or even the only way to reach a desired effect. What mental processes are involved when people decide not to act to reach certain effects? From the outside it may seem that nothing remarkable is happening, because no action can be observed. However, I present three studies which disclose the cognitive processes that control nonactions. The present experiments address situations where people intentionally decide to omit certain actions in order to produce a predictable effect in the environment. These experiments are based on the ideomotor hypothesis, which suggests that bidirectional associations can be formed between actions and the resulting effects. Because of these associations, anticipating the effects can in turn activate the respective action. The results of the present experiments show that associations can be formed between nonactions (i.e., the intentional decision not to act) and the resulting effects. Due to these associations, perceiving the nonaction effects encourages not acting (Exp. 1-3). What is more, planning a nonaction seems to come with an activation of the effects that inevitably follow the nonaction (Exp. 4-5). These results suggest that the ideomotor hypothesis can be expanded to nonactions and that nonactions are cognitively represented in terms of their sensory effects. Furthermore, nonaction effects can elicit a sense of agency (Exp. 6-8). That is, even though people refrain from acting, the resulting nonaction effects are perceived as self-produced effects. In a nutshell, these findings demonstrate that intentional nonactions include specific mechanisms and processes, which are involved, for instance, in effect anticipation and the sense of agency. This means that, while it may seem that nothing remarkable is happening when people decide not to act, complex processes run on the inside, which are also involved in intentional actions.},
  subject      = {Intention},
  language  = {en}
}
@phdthesis{Foerster2020,
  author    = {F{\"o}rster, Anna},
  title     = {Searching for truth in dishonesty: The cognitive architecture of lying},
  doi       = {10.25972/OPUS-20973},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-209730},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Honest actions predominate human behavior. From time to time, this general preference must yield to dishonest actions, which require an effortful process of overcoming initial honest response activation. This thesis presents three experimental series to elucidate this tug-of-war between honest and dishonest response tendencies in overtly committed instances of lies, thereby joining recent efforts to move from a sheer phenomenological perspective on dishonest responding as being more difficult than honest responding to a precise description of the underlying cognitive processes. The consideration of cognitive theories, empirical evidence, and paradigms from different research fields - dishonesty, cognitive control and sensorimotor stage models of information processing - lay the groundwork for the research questions and methodological approach of this thesis. The experiments pinpoint the underlying conflict of dishonest responding in the central, capacity-limited stage of information processing (Experiments 1 to 4), but they also demonstrate that cognitive control processes (Experiments 5 to 7) and the internalization of false alibis (Experiments 8 to 11) can reduce or even completely eliminate this conflict. The data reveals great flexibility at the cognitive basis of dishonest responding: On the one hand, dishonest responding appears to rely heavily on capacity-limited processes of response selection to overcome honest response tendencies alongside up- and downstream consequences of response activation and monitoring. On the other hand, agents have powerful tools to mitigate these effortful processes through control adaptation and false alibis. These results support and expand current theorizing of the cognitive underpinnings of dishonest responding. Furthermore, they are alerting from an applied perspective on the detection of lies, especially when considering the flexibility of even basic cognitive processes in the face of false alibis. A promising way to move forward from here would be a fine-grained discrimination of response activation, passive decay and active inhibition of honest representations in dishonest responding and the assessment of the adaptiveness of these processes.},
  subject      = {L{\"u}ge},
  language  = {en}
}
@phdthesis{RiechelmannverhSteinbacher2021,
  author    = {Riechelmann [verh. Steinbacher], Eva Katharina},
  title     = {Gaze interaction: Cognitive mechanisms of oculomotor action control},
  doi       = {10.25972/OPUS-21527},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-215279},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {Humans use their eyes not only as visual input devices to perceive the environment, but also as an action tool in order to generate intended effects in their environment. For instance, glances are used to direct someone else's attention to a place of interest, indicating that gaze control is an important part of social communication. Previous research on gaze control in a social context mainly focused on the gaze recipient by asking how humans respond to perceived gaze (gaze cueing). So far, this perspective has hardly considered the actor's point of view by neglecting to investigate what mental processes are involved when actors decide to perform an eye movement to trigger a gaze response in another person. Furthermore, eye movements are also used to affect the non-social environment, for instance when unlocking the smartphone with the help of the eyes. This and other observations demonstrate the necessity to consider gaze control in contexts other than social communication whilst at the same time focusing on commonalities and differences inherent to the nature of a social (vs. non-social) action context. Thus, the present work explores the cognitive mechanisms that control such goal-oriented eye movements in both social and non-social contexts. The experiments presented throughout this work are built on pre-established paradigms from both the oculomotor research domain and from basic cognitive psychology. These paradigms are based on the principle of ideomotor action control, which provides an explanatory framework for understanding how goal-oriented, intentional actions come into being. The ideomotor idea suggests that humans acquire associations between their actions and the resulting effects, which can be accessed in a bi-directional manner: Actions can trigger anticipations of their effects, but the anticipated resulting effects can also trigger the associated actions. According to ideomotor theory, action generation involves the mental anticipation of the intended effect (i.e., the action goal) to activate the associated motor pattern. The present experiments involve situations where participants control the gaze of a virtual face via their eye movements. The triggered gaze responses of the virtual face are consistent to the participant's eye movements, representing visual action effects. Experimental situations are varied with respect to determinants of action-effect learning (e.g., contingency, contiguity, action mode during acquisition) in order to unravel the underlying dynamics of oculomotor control in these situations. In addition to faces, conditions involving changes in non-social objects were included to address the question of whether mechanisms underlying gaze control differ for social versus non-social context situations. The results of the present work can be summarized into three major findings. 1. My data suggest that humans indeed acquire bi-directional associations between their eye movements and the subsequently perceived gaze response of another person, which in turn affect oculomotor action control via the anticipation of the intended effects. The observed results show for the first time that eye movements in a gaze-interaction scenario are represented in terms of their gaze response in others. This observation is in line with the ideomotor theory of action control. 2. The present series of experiments confirms and extends pioneering results of Huestegge and Kreutzfeldt (2012) with respect to the significant influence of action effects in gaze control. I have shown that the results of Huestegge and Kreutzfeldt (2012) can be replicated across different contexts with different stimulus material given that the perceived action effects were sufficiently salient. 3. Furthermore, I could show that mechanisms of gaze control in a social gaze-interaction context do not appear to be qualitatively different from those in a non-social context. All in all, the results support recent theoretical claims emphasizing the role of anticipation-based action control in social interaction. Moreover, my results suggest that anticipation-based gaze control in a social context is based on the same general psychological mechanisms as ideomotor gaze control, and thus should be considered as an integral part rather than as a special form of ideomotor gaze control.},
  subject      = {Verhaltenskontrolle},
  language  = {en}
}
@phdthesis{Schmidts2021,
  author    = {Schmidts, Constantin},
  title     = {Affective regulation of cognitive conflict},
  doi       = {10.25972/OPUS-21989},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-219897},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {Kognitive Kontrolle beschreibt Prozesse die n{\"o}tig sind um zielgerichtetes Handeln im Angesicht von internen oder externen Widerst{\"a}nden zu erm{\"o}glichen. Wenn wir aus eigenen St{\"u}cken oder inspiriert durch unsere Umwelt Handlungen vorbereiten die unseren aktuellen Zielen entgegen stehen, kommt es zu Konflikten. Solche Konflikte k{\"o}nnen sich auf nachfolgendes Erleben und Verhalten auswirken. Aversive Konsequenzen von Konflikt k{\"o}nnten in einem Konflikt{\"u}berwachungsmodul registriert werden, welches anschließend Aufmerksamkeits{\"a}nderungen und Handlungstendenzen zur Reduzierung dieses negativen Affektes in Gang setzt. Wenn das der Fall w{\"a}re, k{\"o}nnten die vielfach beobachteten Verhaltensanpassungen an kognitiven Konflikt ein Ausdruck von Emotionsregulation sein. Ein theoretischer Eckpfeiler der gegenw{\"a}rtigen Forschung zur Emotionsregulation ist das Prozessmodell der Emotionsregulation, das aus den Regulationsstrategien Situationsauswahl, Situationsmodifikation, Aufmerksamkeitslenkung, kognitiven Ver{\"a}nderungen und Reaktionsmodulation besteht. Unter der Annahme, dass Konfliktanpassung und Affektregulation auf gemeinsamen Mechanismen fußen, habe ich aus dem Prozessmodell der Emotionsregulation Vorhersagen zur kognitiven Kontrolle abgeleitet und diese in elf Experimenten getestet (N = 509). Die Versuchsteilnehmer zeigten Situationsauswahl in Bezug auf Konflikte, allerdings nur dann, wenn sie ausdr{\"u}cklich auf Handlungs- und Ergebniskontingenzen hingewiesen wurden (Experimente 1 bis 3). Ich fand Anzeichen f{\"u}r einen Mechanismus, der der Situationsmodifikation {\"a}hnelt, aber keine Hinweise auf eine Beteiligung von Affekt (Experimente 4 bis 10). Eine {\"A}nderung der Konfliktbewertung hatte keinen Einfluss auf das Ausmaß der Konfliktadaptation (Experiment 11). Insgesamt gab es Hinweise auf eine explizite Aversivit{\"a}t kognitiver Konflikte, jedoch weniger auf implizite Aversivit{\"a}t, was darauf hindeutet, dass Konflikte vor allem dann Affektregulationsprozesse ausl{\"o}sen, wenn Menschen explizit Affektregulationsziele vor Augen haben.},
  subject      = {Affekt},
  language  = {en}
}
@phdthesis{Brych2022,
  author    = {Brych, Mareike Kimberly},
  title     = {How movements and cognition interact: An investigation of spontaneous blinks},
  doi       = {10.25972/OPUS-26737},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-267376},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {During natural behavior, cognitive processes constantly coincide with body movements such as head or eye movements or blinks. However, during experimental investigations of cognitive processes, movements are often highly restricted which is rather unnatural. In order to improve our understanding of natural behavior, this thesis investigates the interaction between cognition and movements by focusing on spontaneous blinks, which naturally interact with other body movements. Spontaneous blinks are inevitably connected to vision as they shut out incoming visual information. Both sensory-based and cognitive factors, for example, stimulus occurrence and evaluation, were reported to influence blink behavior. Our first study investigated if such influences are comparable for visual and non-visual input. The chosen experimental design allowed dissociating sensory-driven and cognitive influences, which then could be compared between the visual and auditory domain. Our results show that blinks are more strongly modulated during passive observation of visual input compared to auditory input. This modulation is however enhanced for both input modalities by an increased attentional demand. In addition, the cognitively defined meaning of a stimulus changes blink latency independent of the sensory domain. Overall, our findings show that spontaneous blinks and cognitive processes are linked beyond vision. Moreover, the underlying cognitive processes that influence blinks are largely the same across different sensory input indicating that blinks are profoundly integrated into our system. When investigating natural behavior, it is important to consider that movements rarely occur in isolation, but are executed side by side. As these movements interact and have a link to cognitive processes, the complexity of our system increases. In order to take this complexity into account, the second part of the experimental research focused on movement interactions, more specifically on the interactions between blinks, pupil size and speaking. Our results reveal that speech-related motor activity increases blink rate and pupil size as well as modulates blink timing. This is in line with previous research that described a relation between different body and eye movements. Importantly, each bodily-induced change in eye movements affects visual information intake. Therefore, different movements can be tightly linked to perceptual processes through complex interactions. Altogether, the work of this thesis provides rich evidence that movements and cognitive processes are deeply intertwined. Therefore, movements should be seen as an integral part of our system. Taking the relevance of movements and their interactions into account during experimental investigations is necessary in order to reveal a more realistic and complete picture of human natural behavior.},
  subject      = {Kognition},
  language  = {en}
}
@phdthesis{Breil2023,
  author    = {Breil, Christina},
  title     = {Look at me and I will feel you: eye contact and social understandig},
  doi       = {10.25972/OPUS-27802},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-278021},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {One of the features that defines humans as extraordinarily social beings is their striking susceptibility to the gaze of others. The research reported in this dissertation was undertaken to advance our understanding of the role of gaze cues in low-level attentional and higher-order cognitive processes. In particular, effects of gaze were examined with regard to three aspects of human cognition: (1) social attention, (2) social interaction and (3) social understanding. Chapter 1 consists of three manuscripts that investigate the boundary conditions of attention capture by direct gaze and how gaze direction is integrated with facial context information. Manuscript 1 and 2 suggest two necessary requirements for attention capture by direct gaze: a meaningful holistic facial context and sharp foveal vision, respectively. Manuscript 3 shows approach/avoidance-congruency effects between gaze direction and emotion expression on attention. Chapter 2 of this dissertation explores the role of gaze in more naturalistic social scenarios. Manuscript 4 demonstrates that gaze behavior during a conversation shapes our perception of another person. Manuscript 5 builds on these findings by showing that these perceptions define our willingness to act in a prosocial way towards our interaction partner. Finally, chapter 3 adopts a broader perspective on social cognition research with a special focus on methodological aspects. Manuscript 6 is a review highlighting the significance of methodological aspects in social cognition research and stressing the importance of sophisticated decisions on task and stimulus materials. Manuscript 7 introduces a new instrument for the assessment of social understanding in adolescents. Initial application in a young sample group indicates that an understanding of another person's mental states is a capacity that is still developing throughout adolescence. Both manuscripts of this final chapter include eye tracking data that suggest a relationship between gaze behavior and social understanding, a finding that further emphasizes the complex and multifaceted nature of social cognition. I conclude from the findings of this dissertation that research can benefit from adopting a broad view in terms of methodological as well as temporal aspects in order to capture human social cognition in its entirety.},
  subject      = {Blick},
  language  = {en}
}
@phdthesis{Murali2023,
  author    = {Murali, Supriya},
  title     = {Understanding the function of spontaneous blinks by investigating internally and externally directed processes},
  doi       = {10.25972/OPUS-28747},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-287473},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {Humans spontaneously blink several times a minute. These blinks are strongly modulated during various cognitive task. However, the precise function of blinking and the reason for their modulation has not been fully understood. In the present work, I investigated the function of spontaneous blinks through various perceptual and cognitive tasks. Previous research has revealed that blinks rates decrease during some tasks but increase during others. When trying to understand these seemingly contradictory results, I observed that blink reduction occurs when one engages with an external input. For instance, a decrease has been observed due to the onset of a stimulus, sensory input processing and attention towards sensory input. However, for activities that do not involve such an engagement, e.g. imagination, daydreaming or creativity, the blink rate has been shown to increase. To follow up on the proposed hypothesis, I distinguished tasks that involve the processing of an external stimulus and tasks that involve disengagement. In the first part of the project, I explored blinking during stimulus engagement. If the probability of blinking is low when engaging with the stimulus, then one should find a reduction in blinks specifically during the time period of processing but not during sensory input per se. To this end, in study 1, I tested the influence of task-relevant information duration on blink timing and additionally manipulated the overall sensory input using a visual and an auditory temporal simultaneity judgement task. The results showed that blinks were suppressed longer for longer periods of relevant information or in other words, blinks occurred at the end of relevant information processing for both the visual and the auditory modality. Since relevance is mediated through top-down processes, I argue that the reduction in blinks is a top-down driven suppression. In studies 2 and 3, I again investigated stimulus processing, but in this case, processing was triggered internally and not based on specific changes in the external input. To this end, I used bistable stimuli, in which the actual physical stimulus remains constant but their perception switches between different interpretations. Studies on the involvement of attention in such bistable perceptual changes indicate that the sensory input is reprocessed before the perceptual switch. The results revealed a reduction in eye blink rates before the report of perceptual switches. Importantly, I was able to decipher that the decrease was not caused by the perceptual switch or the behavioral response but likely started before the internal switch. Additionally, periods between a blink and a switch were longer than interblink intervals, indicating that blinks were followed by a period of stable percept. To conclude, the first part of the project revealed that there is a top-down driven blink suppression during the processing of an external stimulus. In the second part of the project, I extended the idea of blinks marking the disengagement from external processing and tested if blinking is associated with better performance during internally directed processes. Specifically, I investigated divergent thinking, an aspect of creativity, and the link between performance and blink rates as well as the effect of motor restriction. While I could show that motor restriction was the main factor influencing divergent thinking, the relationship between eye blink rates and creative output also depended on restriction. Results showed that higher blink rates were associated with better performance during free movement, but only between subjects. In other words, subjects who had overall higher blink rates scored better in the task, but when they were allowed to sit or walk freely. Within a single subject, trial with higher blink rates were not associated with better performance. Therefore, possibly, people who are able to disengage easily, as indicated by an overall high blink rate, perform better in divergent thinking tasks. However, the link between blink rate and internal tasks is not clear at this point. Indeed, a more complex measurement of blink behavior might be necessary to understand the relationship. In the final part of the project, I aimed to further understand the function of blinks through their neural correlates. I extracted the blink-related neural activity in the primary visual cortex (V1) of existing recordings of three rhesus monkeys during different sensory processing states. I analyzed spike related multi-unit responses, frequency dependent power changes, local field potentials and laminar distribution of activity while the animal watched a movie compared to when it was shown a blank screen. The results showed a difference in blink-related neural activity dependent on the processing state. This difference suggests a state dependent function of blinks. Taken altogether, the work presented in this thesis suggests that eye blinks have an important function during cognitive and perceptual processes. Blinks seem to facilitate a disengagement from the external world and are therefore suppressed during intended processing of external stimuli.},
  subject      = {Lidschlag},
  language  = {en}
}
@phdthesis{Chen2024,
  author    = {Chen, Xinyu},
  title     = {How natural walking changes occipital alpha oscillations and concurrently modulates cognitive processes},
  doi       = {10.25972/OPUS-35295},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-352958},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {Humans actively interact with the world through a wide range of body movements. To understand human cognition in its natural state, we need to incorporate ecologically relevant body movement into our account. One fundamental body movement during daily life is natural walking. Despite its ubiquity, the impact of natural walking on brain activity and cognition has remained a realm underexplored. In electrophysiology, previous studies have shown a robust reduction of ongoing alpha power in the parieto-occipital cortex during body movements. However, what causes the reduction of ongoing alpha, namely whether this is due to body movement or prevalent sensory input changes, was unknown. To clarify this, study 1 was performed to test if the alpha reduction is dependent on visual input. I compared the resting state alpha power during natural walking and standing, in both light and darkness. The results showed that natural walking led to decreased alpha activity over the occipital cortex compared to standing, regardless of the lighting condition. This suggests that the movement-induced modulation of occipital alpha activity is not driven by visual input changes during walking. I argue that the observed alpha power reduction reflects a change in the state of the subject based on disinhibition induced by walking. Accordingly, natural walking might enhance visual processing and other cognitive processes that involve occipital cortical activity. I first tested this hypothesis in vision. Study 2 was performed to examine the possible effects of natural walking across visual processing stages by assessing various neural markers during different movement states. The findings revealed an amplified early visual response, while a later visual response remain unaffected. A follow-up study 3 replicated the walking-induced enhancement of the early visual evoked potential and showed that the enhancement was dependent on specific stimulus-related parameters (eccentricity, laterality, distractor presence). Importantly, the results provided evidence that the enhanced early visual responses are indeed linked to the modulation of ongoing occipital alpha power. Walking also modulated the stimulus-induced alpha power. Specifically, it showed that when the target appeared in the fovea area without a distractor, walking exhibited a significantly reduced modulation of alpha power, and showed the largest difference to standing condition. This effect of eccentricity indicates that during later visual processing stages, the visual input in the fovea area is less processed than in peripheral areas while walking. The two visual studies showed that walking leads to an enhancement in temporally early visual processes which can be predicted by the walking-induced change in ongoing alpha oscillation likely marking disinhibition. However, while walking affects neural markers of early sensory processes, it does not necessarily lead to a change in the behavioural outcome of a sensory task. The two visual studies suggested that the behavioural outcome seems to be mainly based on later processing stages. To test the effects of walking outside the visual domain, I turned to audition in study 4. I investigated the influence of walking in a particular path vs. simply stepping on auditory processing. Specifically, the study tested whether enhanced processing due to natural walking can be found in primary auditory brain activity and whether the processing preferences are dependent on the walking path. In addition, I tested whether the changed spatial processing that was reported in previous visual studies can be seen in the auditory domain. The results showed enhanced sensory processing due to walking in the auditory domain, which was again linked to the modulation of occipital alpha oscillation. The auditory processing was further dependent on the walking path. Additionally, enhanced peripheral sensory processing, as found in vision, was also present in audition. The findings outside vision supported the idea of natural walking affecting cognition in a rather general way. Therefore in my study 5, I examined the effect of natural walking on higher cognitive processing, namely divergent thinking, and its correlation with the modulation of ongoing alpha oscillation. I analyzed alpha oscillations and behavioural performance during restricted and unrestricted movement conditions while subjects completed a Guilford's alternate uses test. The results showed that natural walking, as well as missing body restriction, reduces the occipital alpha ongoing power independent of the task phase which goes along with higher test scores. The occipital alpha power reduction can therefore be an indicator of a changed state that allows improved higher cognitive processes. In summary, the research presented in this thesis highlights that natural walking can change different processes in the visual and auditory domain as well as higher cognitive processes. The effect can be attributed to the movement of natural walking itself rather than to changes in sensory input during walking. The results further indicate that the walking-induced modulation of ongoing occipital alpha oscillations drives the cognitive effects. We therefore suggest that walking changes the inhibitory state which can influence awareness and attention. Such a mechanism could facilitate an adaptive enhancement in cognitive processes and thereby optimize movement-related behaviour such as navigation.},
  subject      = {Walking},
  language  = {en}
}