A4
Prof. Dr. Fiehler und Dr. Voudouris
Prädiktive somatosensorische Verarbeitung während willentlicher Bewegungen
Projekt A4 erforscht, wie sensomotorische Vorhersagen die taktile Sensitivität regulieren und die Kinematik verändern. Wir untersuchen willentliche Bewegungen zunehmender Komplexität, die verschiedene Anforderungen an die Verarbeitung prädiktiver und sensorischer Rückmeldungssignale stellen: von bimanuellem Greifen, Mensch-Mensch und Mensch-Roboter Interaktion bis hin zu Ganzkörperbewegungen. Dies wird ergänzt durch Untersuchungen der prädiktiven Kontrolle in speziellen Kohorten (Kinder, ältere Personen und Schizophrenie-Patienten), die sich unterschiedlich stark auf prädiktive Signale verlassen.
Neue Projektrelevante Veröffentlichungen
Beyvers, M. C., Fraser, L. E., & Fiehler, K. (2022). Linking signal relevancy and intensitiy in predictive tactile suppressionFrontiers in Human Neuroscience, 16, 795886. find paper,
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Beyvers, M. C., Fraser, L., & Fiehler, K. (2022). Linking signal relevancy and intensity in predictive tactile suppression. Frontiers in Human Neuroscience, 75.
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Beyvers, M. C., Koch, I., & Fiehler, K. (2022). Episodic Binding and Retrieval in Sequences of Discrete Movements–Evidence from Grasping Actions. Journal of Cognition, 5(1). find paper
Beyvers, M.C., Voudouris, D., & Fiehler, K. (2023). Sensorimotor memories influence movement kinematics but not associated tactile processing Scientific Reports, 13(1), 17920. find paper,
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Fuehrer, E., Voudouris, D., Lezkan, A., Drewing, K., & Fiehler, K. (2022). Tactile suppression stems from specific sensorimotor predictions. Proceedings of the National Academy of Sciences, 119(20), e2118445119.
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Klever, L., Beyvers, M. C., Fiehler, K., Mamassian, P., & Billino, J. (2023). Cross-modal metacognition: Visual and tactile confidence share a common scale. Journal of Vision, 23(5), 3-3. find paper
McManus, M., Schuetz, I., Voudouris, D., & Fiehler, K. (2023). How visuomotor predictability and task demands affect tactile sensitivity on a moving limb during object interaction.Royal Society Open Science, 10(12): 231259. find paper,
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Schuetz, I., & Fiehler, K. (2022). Eye tracking in virtual reality: Vive pro eye spatial accuracy, precision, and calibration reliability. Journal of Eye Movement Research, 15(3). find paper
Schuetz, I., & Fiehler, K. (2022). Vive pro eye spatial accuracy, precision, and calibration reliability. Journal of Eye Movement Research, 15(3). find paper
Schuetz, I., Karimpur, H., & Fiehler, K. (2023). vexptoolbox: A software toolbox for human behavior studies using the Vizard virtual reality platform. Behavior Research Methods, 55(2), 570-582. find paper
Schuetz, I., McManus, M., Fiehler, K., & Voudouris, D. (2022). Investigating movement-related tactile suppression using commercial VR controllers. Lecture Notes on Computer Science, 13235: 225-233. find paper,
Voudouris, D., & Fiehler, K. (2022). The role of grasping demands on tactile suppression. Human Movement Science, 83, 102957.
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Voudouris, D., Schuetz, I., Schinke, T., & Fiehler, K. (2023). Pupil dilation scales with movement distance of real but not of imagined reaching movements. Journal of Neurophysiology. find paper
Ältere projektrelevante Veröffentlichungen
Arikan, B. E., Voudouris, D., Voudouri-Gertz, H., Sommer, J., & Fiehler, K. (2021). Reach-relevant somatosensory signals modulate activity in the tactile suppression network. NeuroImage, 236, 118000.
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Broda, M.D., Fiehler, K., & Voudouris, D. (2020). The influence of afferent input on somatosensory suppression during grasping. Scientific Reports, 10(1), 1-11.
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Fiehler, K., Brenner, E., & Spering, M. (2019). Prediction in goal-directed action. Journal of vision, 19(9), 10-10.
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Fraser, L. E., & Fiehler, K. (2018). Predicted reach consequences drive time course of tactile suppression. Behavioural brain research, 350, 54-64.
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Gertz , H., Lingnau, A., & Fiehler , K. (2017). Decoding movement goals from the fronto-parietal reach network. Frontiers in Human Neuroscience, 11, 84.
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Gertz, H. & Fiehler, K. (2015). Human posterior parietal cortex encodes the movement goal in a pro-/anti-reach task. Journal of Neurophysiology, 114, 170-183.
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Gertz, H., Fiehler, K., & Voudouris, D. (2018). The role of visual processing on tactile suppression. PloS one, 13(4), e0195396.
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Gertz, H., Hilger, M., Hegele, M.*, & Fiehler, K.* (2016). Violating instructed human agency: An fMRI study on ocular tracking of biological and nonbiological motion stimuli. Neuroimage, 138, 109-122. (*shared last authorship)
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Gertz, H., Voudouris, D., & Fiehler, K. (2017). Reach-relevant somatosensory signals modulate tactile suppression. Journal of Neurophysiology, 117(6), 2262-2268.
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Göttker, A., Fiehler, K. & Voudouris, D (2020). Contribution of somatosensory information for goal-directed hand and eye movements. Journal of Neurophysiology, 124(4), 1092-1102.
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Khoozani, P. A., Voudouris, D., Blohm, G., & Fiehler, K. (2020). Reaching around obstacles accounts for uncertainty in coordinate transformations. Journal of Neurophysiology, 123(5), 1920-1932.
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Klein, L. K., Maiello, G., Fleming, R. W., & Voudouris, D. (2021). Friction is preferred over grasp configuration in precision grip grasping. Journal of Neurophysiology, 125(4), 1330-1338.
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Klever, L., Voudouris, D., Fiehler, K., & Billino, J. (2019). Age effects on sensorimotor predictions: What drives increased tactile suppression during reaching? Journal of vision, 19(9), 9-9.
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Mueller , S. & Fiehler .K. (2017). Gaze-dependent coding of proprioceptive reach targets after effector movement: Testing the impact of online information, movement timing, and target distance. PLOS ONE, 12(7), e0180782.
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Mueller, S. & Fiehler, K. (2014a). Effector movement triggers gaze-dependent spatial coding of tactile and proprioceptive-tactile reach targets. Neuropsychologia, 62, 184-193.
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Mueller, S. & Fiehler, K. (2014b). Gaze-dependent spatial updating of tactile targets in a localization task. Frontiers in Psychology, 5, Article 66, 1-10.
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Mueller, S., & Fiehler, K. (2016). Mixed body-and gaze-centered coding of proprioceptive reach targets after effector movement. Neuropsychologia, 87, 63-73.
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Mueller, S., de Haas, B., Metzger, A., Drewing, K., & Fiehler, K. (2019). Neural correlates of top-down modulation of haptic shape versus roughness perception. Human Brain Mapping, 40(18), 5172-5184.
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Straube, B., van Kemenade, B. M., Arikan, B. E., Fiehler, K., Harris, L. R., Leube, D., & Kircher, T. (2017). Predicting the multisensory consequences of one's own action: BOLD suppression in auditory and visual cortices. PLOS ONE, 12(1), e0169131.
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Voudouris D., & Fiehler K. (2017b). Spatial specificity of tactile enhancement during reaching. Attention, Perception, & Psychophysics, 79(8), 2424-2434.
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Voudouris D., & Fiehler K. (2017a). Enhancement and suppression of tactile signals during reaching. Journal of Experimental Psychology: Human Perception and Performance, 43(6), 1238.
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Voudouris, D. & Fiehler, K. (2021). Dynamic temporal modulation of somatosensory processing during reaching. Scientific Reports, 11(1), 1-12.
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Voudouris, D., Broda, M. D., & Fiehler, K. (2019). Anticipatory grasping control modulates somatosensory perception. Journal of Vision, 19,(5), 4-4.
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Voudouris, D., Goettker, A., Mueller, S., & Fiehler, K. (2016). Kinesthetic information facilitates saccades towards proprioceptive-tactile targets. Vision research, 122, 73-80.
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