B2
Prof. Dr. Schütz
Kontrolle von Augenbewegungen durch Informationswert
Wir sammeln aktiv Informationen über unsere Umgebung, indem wir unsere Augen zu unterschiedlichen Punkten bewegen. Wir werden untersuchen wie der Informationsgewinn und die Kosten einbezogen werden in die Berechnung des Informationswertes und die Entscheidung ob und wohin eine Augenbewegung ausgeführt wird. Der potentielle Informationsgewinn wird quantifiziert als die relative Qualität der Information aus der Fovea nach der Augenbewegung im Vergleich zur Information die bereits vor der Augenbewegung vorhanden ist, entweder aus der Peripherie oder dem visuellen Arbeitsgedächtnis.
Neue Projektrelevante Veröffentlichungen
Braun, D. I., & Schütz, A. C. (2022). Eye Movements and Perception Oxford Research Encyclopedia of Psychology. find paper
Stewart, E. E., Fleming, R. W., & Schütz, A. C. (2023). A simple optical flow model explains why certain object viewpoints are special.bioRxiv, 2023-10. find paper preprint
Wagner, I., & Schütz, A. C. (2023). Interaction of dynamic error signals in saccade adaptation. Journal of Neurophysiology, 129(3), 717-732. find paper
Ältere projektrelevante Veröffentlichungen
Braun, D.I., Schütz & Gegenfurtner, K.R. (2017). Visual sensitivity for luminance and chromatic stimuli during the execution of smooth pursuit and saccadic eye movements. Vision Research, 136,57-69.
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Einhäuser, W., Sandrock, A., & Schütz, A.C. (2021). Perceptual difficulty persistently increases dominance in binocular rivalry - even without a task. Perception, 50(4), 343-366.
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Gloriani, A. H., & Schütz, A. C. (2019). Humans trust central vision more than peripheral vision even in the dark. Current Biology, 27(9), 1206-1210.
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Goettker, A., Braun, D. I., Schütz, A. C., & Gegenfurtner, K. R. (2018). Execution of saccadic eye movements affects speed perception. Proceedings of the National Academy of Sciences, 115(9), 2240-2245.
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Heuer, A., Wolf, C., Schütz, A. C., & Schubö, A. (2019). The possibility to make choices modulates feature-based effects of reward. Scientific reports, 9(1), 1-9.
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Huang, J., Gegenfurtner , K. R., Schütz , A. C., & Billino , J. (2017). Saccadic adaptation reveals differential ageing processes. Journal of Vision , 17(6):9, 1-18.
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Luna, R., Serrano-Pedraza, I., Gegenfurtner, K. R., Schütz, A. C., & Souto, D. (2021). Achieving visual stability during smooth pursuit eye movements: Directional and confidence judgements favor a recalibration model. Vision research, 184, 58-73. find paper
Paeye, C., Schütz, A. C., & Gegenfurtner, K. R. (2016). Visual reinforcement shapes eye movements in visual search. Journal of Vision, 16(10):15-15.
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Schütz, A. C., & Souto, D. (2015). Perceptual task induces saccadic adaptation by target selection. Frontiers in Human Neuroscience, 9, 566.
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Schütz, A. C., Kerzel, D., & Souto, D. (2014). Saccadic adaptation induced by a perceptual task. Journal of Vision, 14(5), 4-4.
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Schütz, A. C., Lossin, F., & Gegenfurtner, K. R. (2015). Dynamic integration of information about salience and value for smooth pursuit eye movements. Vision Research, 113, 169-178.
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Sharvashidze, N., & Schütz, A. C. (2020). Task-dependent eye-movement patterns in viewing art. Journal of Eye Movement Research, 13(2). find paper
Souto, D., & Schütz, A. C. (2020). Task-relevance is causal in eye movement learning and adaptation. In Kara D. Federmeier & Elizabeth Schotter (Eds.), Gazing Toward the Future: Advances in Eye
Movement Theory and Applications, 73, 157-193. Amsterdam: Elsevier.
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Souto, D., Gegenfurtner, K. R., & Schütz, A. C. (2016). Saccade adaptation and visual uncertainty. Frontiers in Human Neuroscience, 10, 227.
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Stewart, E. E. M., Valsecchi, M., & Schütz, A. C. (2020). A review of interactions between peripheral and foveal vision. Journal of Vision, 20(12), 2-2.
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Wagner, I., Wolf, C., & Schütz, A. C. (2021). Motor learning by selection in visual working memory. Scientific reports, 11(1), 1-12.
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Wolf , C., & Schütz , A. C. (2017). Earlier saccades to task-relevant targets irrespective of relative gain between peripheral and foveal information. Journal of Vision,17(6), 21-21.
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Wolf, C., & Schütz, A. C. (2019). Choice-induced inter-trial inhibition is modulated by idiosyncratic choice-consistency. Plos One, 14(12), e0226982.
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Wolf, C., Heuer, A., Schubö, A., & Schütz, A. C. (2017). The necessity to choose causes the effects of reward on saccade preparation. Scientific reports, 7(1), 1-10.
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Wolf, C., Wagner, I., & Schütz, A. C. (2019). Competition between salience and informational value for saccade adaptation. Journal of Vision, 19(14), 26-26.
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Wolf. C., Schuetz, A.C. (2015). Trans-saccadic integration of peripheral and foveal feature information is close to optimal. Journal of Vision, 15(16), 1-1.
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