Pascal Mamassian, Ph.D.

Mercator-Fellow

Justus-Liebig-Universität Gießen FB 06 Psychologie und Sportwissenschaft
Alter Steinbacher Weg 38
35394 Gießen (Germany)

Kurzinfo

Pascal Mamassian is a Director of Research at the Centre national de la recherche scientifique (CNRS), France, and head of the Laboratoire des systèmes perceptifs. His work aims to understand how we perceive the world around us. Research in his group focuses on mid-level vision, the link between the processing of elementary features in the image and the awareness of natural scenes. He is working on topics like three-dimensional perception (pictorial cues, motion cues and binocular disparities), cross-modal perception (vision-audition), temporal dynamics of perception (in particular bistable perception), and probabilistic modelling of perception (Bayesian models). More details on his research is available on his research web page.

Pascal Mamassian holds a Masters in Cognitive Sciences and a PhD in Experimental and Biological Psychology. He has worked at the Max-Planck Institute for Biological Cybernetics, Tübingen, Germany, and at New York University, New York, USA. He was a lecturer and senior lecturer at the University of Glasgow, UK, before taking a researcher position at the CNRS (France).

Projektrelevante Veröffentlichungen
Ody, E., Straube, B., He, Y., & Kircher, T. (2023). Perception of self-generated and externally-generated visual stimuli: Evidence from EEG and behavior. Psychophysiology, 00, e14295. find paper
Abbasi, H., Henare, D., Kadel, H., & Schubö, A. (2023). Selection history and task predictability determine the precision expectations in attentional control. Psychophysiology, 60(1), e14151. find paper
Abbasi, H., Kadel, H., Hickey, C., & Schubö, A. (2022). Combined influences of strategy and selection history on attentional control. Psychophysiology, 59(4), e13987. find paper
Aizenman, A. M., Gegenfurtner, K. R., & Goettker, A. (2024). Oculomotor routines for perceptual judgments. Journal of Vision,24(5), 3-3. find paper
Akbarinia, A., Morgenstern, Y., & Gegenfurtner, K. R. (2023). Contrast sensitivity function in deep networks.Neural Networks, 164, 228-244. find paper
Albers, A. M., Baumgartner, E., & Gegenfurtner, K. R. (2022). Color constant representations in early visual cortex. bioRxiv (2022): 2022-06. find paper
Arbuzova P., Maurer L. K., Filevich E. (2022). Metacognitive domains are not aligned along a dimension of internal-external information source. Psychonomic Bulletin & Review. Advance online publication. find paper DOI
Bahn, D., Sommer, J. Schwarzer, G. & Kauschke, C. (2023). Granularität beim Erzählen emotionaler Ereignisse im Kindes- und Erwachsenenalter. Kindheit & Entwicklung, 32(3), 206-218. find paper
Bahn, D., Sommer, J., Schwarzer, G. & Kauschke, C. (2023). The Development of Granularity in Verbalizing Emotional Events from Childhood to Adulthood: An Analysis of Narratives. Poster presented at The European Conference on Language Learning (ECLL July 2023, London) find paper
Beitner, J., Helbing, J., Draschkow, D., David, E. J., & Võ, M. L. H. (2023). Flipping the world upside down: Using eye tracking in virtual reality to study visual search in inverted scenes. Journal of Eye Movement Research, 15 (3). find paper DOI
Belkis Ezgi Arikan, Dimitris Voudouris, Benjamin Straube, and Katja Fiehler (2023). Distinct role of central predictive mechanisms in tactile suppression. Available at SSRN 4622696 find preprint
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, DATA
Beyvers, M. C., Fraser, L., & Fiehler, K. (2022). Linking signal relevancy and intensity in predictive tactile suppression. Frontiers in Human Neuroscience, 75. find paper
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 DOI
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, DATA
Borovska, P, de Haas, B (2023). Faces in scenes attract rapid saccades. Journal of Vision, 23(8):11, 1-15. find paper DOI
Brand, T. K., Maurer, L. K., Müller, H., Döhring, F. R. & Joch, M. (2022). Predictability shapes movement kinematics and grip force regulation in human object handovers. Human Movement Science, 85, 102976. find paper
Braun, D. I., & Schütz, A. C. (2022). Eye Movements and Perception Oxford Research Encyclopedia of Psychology. find paper
Broda, M, de Haas, B (2022). Individual fixation tendencies in person viewing generalize from images to videos. iPerception, 13(5), 1–10. find paper DOI
Broda, M, de Haas, B (2022). Individual differences in looking at persons in scenes. Journal of Vision, 22, 9. find paper DOI
Broda, M, de Haas, B (2023). Reading the mind in the nose. iPerception, 14, 2. find paper DOI
Broda, M, Haddad, T, de Haas, B (2023). Quick, eyes! Isolated upper face regions but not artifical features elicit rapid saccades. Journal of Vision, 23, 5. find paper DOI
Broda, M. D., & de Haas, B. (2023). Individual differences in rapid face-directed saccades. Journal of Vision 23, no. 9 (2023): 5451-5451. find paper
Cavdan, M., Doerschner, K., Drewing, K. (2022). Haptic Discrimination of Different Types of Soft Materials. In: H. Seifi, et al. Haptics: Science, Technology, Applications. EuroHaptics 2022. Lecture Notes in Computer Science, vol 13235. Springer, Cham. find preprint
Cavdan, M., Goktepe, N., Drewing, K., & Doerschner, K. (2023). Assessing the representational structure of softness activated by words. Scientific Reports, 13(1), 8974. find paper
Charalampaki, A., Peters, C., Maurer, H., Maurer, L. K., Müller, H., Verrel, J. & Filevich, E. (2023). Motor outcomes congruent with intentions may sharpen metacognitive representations. Cognition, 235, 105388. find paper DOI
Cheeseman, J. R., Fleming, R. W., & *Schmidt, F.* (2022). Scale ambiguities in material recognition. iScience, 25(3), 103970. find paper, DATA
Chen L, Cichy RM*, Kaiser D* (2023). Alpha-frequency feedback to early visual cortex orchestrates coherent naturalistic vision. Sci Adv 9: eadi2321. *equal contribution find paper DOI
Chen L, Cichy RM*, Kaiser D* (2024). Coherent categorical information triggers integration-related alpha dynamics. Journal of Neurophysiology. find paper DOI
D. Engel, R. S. Greulich, A. Parola, K. Vinehout, S. Dowiasch, J. Waldthaler, L. Timmermann, C. A. Rothkopf, & F. Bremmer (2023). Convolutional neural network reveals frequency content of medio-lateral COM body sway to be highly predictive of Parkinson's disease. JmedRxiv, 2023-05. find paper
David, E., Gutiérrez, J., Võ, M. L.-H., Coutrot, A., Perreira Da Silva, M., & Callet, P. (2024). The Salient360! toolbox: Handling gaze data in 3D made easy. Computers & Graphics, 103890. find paper
de Haas, B. (2022). What's a super-recogniser?. Journal of Vision, 23 (9), 5451-5451. find paper
de la Malla, C., & Goettker, A. (2023). The effect of impaired velocity signals on goal-directed eye and hand movements. Scientific Reports, 13(1), 13646. find paper
de Vries, J.P., Akbarinia, A., Flachot, A. & Gegenfurtner, K.R. (2022). Emergent color categorization in a neural network trained for object recognition. eLife, 11, e76472. find preprint DOI
de Vries, J.P., Flachot, A., Morimoto, T. & Gegenfurtner, K.R. (2023). A deep new look at color. Behavioral and Brain Sciences46 (2023): e389 find paper
Dobs, K., Martinez, J., Kell, A. J. E., Kanwisher, N. (2022). Dobs, K., Martinez, J., Kell, A. J., & Kanwisher, N. (2022). Brain-like functional specialization emerges spontaneously in deep neural networks. Science advances, 8(11), eabl8913. find paper
Dobs, K., Yuan, J., Martinez, J., & Kanwisher, N. (2023). Behavioral signatures of face perception emerges in deep neural networks optimized for face recognition. Proceedings of the National Academy of Sciences, 120 (32), e2220642120. find paper DOI
Dövencioǧlu, D. N., Üstün, F. S., Doerschner, K., & Drewing, K. (2022). Hand explorations are determined by the characteristics of the perceptual space of real-world materials from silk to sand. Scientific Reports, 12(1), 14785. find paper DOI
Dowiasch, S., Kaminiarz, A., & Bremmer, F. (2022). The visual representation of space in the primate brain. Neuroforum, 28(4): 199–209. find paper
Draschkow, D., David, E. J., & Võ, M. L.-H. (2023). Using XR (extended reality) for behavioral, clinical, and learning sciences requires updates in infrastructure and funding. Policy Insights from the Behavioral and Brain Sciences., 10(2), 317-323. find paper
Drewing, K. (2024). Perceptuo-affective organization of touched materials in younger and older adultsPlos one, 19e0296633. find paper DOI
Drewing, K., Vroomen, J. (2022). Moving Hands Feel Stimuli Before Stationary Hands. In: H. Seifi, et al. Haptics: Science, Technology, Applications. EuroHaptics 2022. Lecture Notes in Computer Science, vol 13235. Springer, Cham. find paper DOI
Dukes, J.M., Kiendl, S., & Billino, J. (2022). Haptic shape discrimination independent of weight. Conference paper in Seifi, H., et al. (Eds.). Haptics: Science, Technology, Applications: 13th International Conference on Human Haptic Sensing and Touch Enabled Computer Applications, EuroHaptics 2022, Proceedings (Vol. 13235). Springer Nature. find paper
Filip, J., Lukavsky, J., Dechterenko, F., Fleming, R. , & Schmidt, F. (2023). Perceptual dimensions of wood materials. Journal of Vision, 24(5), 12-12.find paper, DATA
Flachot, A., Akbarinia, A., Schütt, H. H., Fleming, R. W., Wichmann, F. A., & Gegenfurtner, K. R. (2022). Deep neural models for color classification and color constancy. Journal of Vision, 22(4), 17-17. find paper
Flachot, A., Akbarinia, A., Schütt, H.H., Fleming, R.W., Wichmann, F.A. & Gegenfurtner, K.R. (2022). Deep neural models for color discrimination and color constancy. Journal of Vision, 22(4), 17-17. find paper DOI
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. find paper DOI
Gegenfurtner, K. R., Weiss, D., & Bloj, M. (2024). Color constancy in real-world settings. Journal of Vision24, no. 2 (2024): 12-12. find paper
Gehb, G., Vesker, M., Jovanovic, B., Bahn, D., Kauschke, C., & Schwarzer, G. (2022). The Relationship between Crawling and Emotion Discrimination in 9- to 10-Month-Old Infants. Brain Science, 12(4), 479. find paper
Gil Rodríguez, R., Bayer, F., Toscani, M., Guarnera, D. Y., Guarnera, G. C., & Gegenfurtner, K. R. (2022). Colour calibration of a head mounted display for colour vision research using virtual reality. SN Computer Science, 3, 1-10. find paper
Gil Rodríguez, R., Hedjar, L., Toscani, M., Guarnera, D., Guarnera, G.C. & Gegenfurtner, K.R. (2024). Color Constancy mechanisms in virtual reality environments. Journal of Vision24, no. 5 (2024): 6-6. find paper
Goettker, A. & Gegenfurtner, K. R. (2024). Individual differences link sensory processing and motor control. Journal of Vision,23(10), 12-12. Download PDF (preprint)
Goettker, A., and Stewart, E. E. M. (2022). Serial dependence for oculomotor control depends on early sensory signals. Current Biology, 32(13), 2956-2961. find paper, DATA
Goettker, A., Borgerding, N., Leeske, L., & Gegenfurtner, K. R. (2023). Cues for predictive eye movements in naturalistic scenes. Journal of Vision,23(10), 12-12. find paper
Goettker, A., Locke, S. M., Gegenfurtner, K. R., & Mamassian, P. (2023). Sensorimotor Confidence for Tracking Eye Movements. Journal of Vision,24(5), 3-3. find paper
Gregorová, K., Turini, J., Gagl, B., & Võ, M. L.-H. (2023). Access to meaning from visual input: Object and word frequency effects in categorization behavior. Journal of Experimental Psychology: General. find paper
Grössle, I. M., Schubö, A., & Tünnermann, J. (2023). Testing a relational account of search templates in visual foraging. Scientific Reports, 13(1), 12541. find paper DOI
Grotheer, M., Bloom, D., Kruper, J., Richie-Halford, A., Zika, S., Aguilera González, V. A., Yeatman, J.D., Grill-Spector, K., & Rokem, A. (2023). Human white matter myelinates faster in utero than ex utero. Proceedings of the National Academy of Sciences, 120(33), e2303491120. find paper DOI
Grotheer, M., Rosenke, M., Wu, H. et al. (2022). White matter myelination during early infancy is linked to spatial gradients and myelin content at birth. Nat Commun 13, 997. find paper
Guerrero‐Viu, J., Subias, J. D., Serrano, A., Storrs, K. R., Fleming, R. W., Masia, B., & Gutierrez, D. (2024). Predicting Perceived Gloss: Do Weak Labels Suffice?. Computer Graphics Forum (Vol. 43, No. 2, p. e15037).find paper, DATA
Hansen, H., & Hebart, M. N. (2022). Semantic features of object concepts generated with GPT-3. arXiv preprint arXiv:2202.03753. find paper DOI
Hartmann, F., Maiello, G., Rothkopf, C. A., & Fleming, R. W. (2023). Estimation of Contact Regions Between Hands and Objects During Human Multi-Digit Grasping. JoVE (Journal of Visualized Experiments), (194), e64877. find paper DOI
Hebart, M. N., Contier, O., Teichmann, L., Rockter, A. H., Zheng, C. Y., Kidder, A., Corriveau, A., Vaziri-Pashkam, M., & Baker, C. I. (2023). THINGS-data, a multimodal collection of large-scale datasets for investigating object representations in human brain and behavior. Elife, 12, e82580. find paper DOI
Helbing, J., Draschkow*, D., & Võ*, M. L.-H. (2022). Auxiliary scene context information provided by anchor objects guides attention and locomotion in natural search behavior. Psychological Science, 33(9), 1463–1476. find paper DOI
Jeschke, M., Drewing, K., & Azañón, E. (2023, July). The Tactile Distance Aftereffect Transfers to Roughness Perception. In 2023 IEEE World Haptics Conference (WHC) (pp. 8-13). IEEE. find paper DOI
Jeschke, M., Zoeller, A.C. & Drewing, K. (2024). Humans flexibly use visual priors to optimize their haptic exploratory behavior.Scientific Reports14, 14906 find paper DOI
Jeschke, M., Zöller, A.C., Drewing, K. (2022). Influence of Prior Visual Information on Exploratory Movement Direction in Texture Perception. In: H. Seifi, et al. Haptics: Science, Technology, Applications. EuroHaptics 2022. Lecture Notes in Computer Science, vol 13235. Springer, Cham. find paper DOI
Kaiser, D. (2024). Spectral brain signatures of aesthetic natural perception in the α and β frequency bands. Journal of Neurophysiology, 128(6), 1501-1505. find paper DOI
Kaiser, D., Stecher, R., & Doerschner, K. (2023). EEG decoding reveals neural predictions for naturalistic material behaviors. bioRxiv, 2023-02. find paper DOI
Kaiser, D., Stecher, R., & Doerschner, K. (2024). EEG decoding reveals neural predictions for naturalistic material behaviors. Journal of Neuroscience43, no. 29 (2023): 5406-5413. find paper DOI
Kallmayer, A., Võ, M. L.-H., & Draschkow, D. (in press). Viewpoint-dependence and scene context effects generalize to depth rotated 3D objects. Journal of Vision. find paper DOI
Kanwisher, N., Gupta, P., & Dobs, K. (2023). CNNs Reveal the Computational Implausibility of the Expertise Hypothesis. iScience, 105976. find paper
Kanwisher, N., Khosla, M., & Dobs, K. (2023). Using artificial neural networks to ask ‘why’ questions of minds and brains. Trends in Neurosciences, 46, 72-88. find paper
Katircilar, D., & Drewing, K. (2023, July). The Effects of Movement Direction and Glove on Spatial Frequency Discrimination in Oriented Textures. In 2023 IEEE World Haptics Conference (WHC) (pp. 313-318). IEEE. find paperDOI
Kauschke, C. (2023). Language and Emotion in Clinical Populations. Schiewer, G. Altarriba, J. & Ng, B.C. (Hrsg.). Language and Emotion. An International Handbook. Volume 3. Handbooks of Linguistics and Communication. Berlin, Boston: Mouton de Gruyter., 2105-2126. find paper
Kauschke, C. (2023). Language and Emotion in Clinical Populations. In Schiewer, G. Altarriba, J. & Ng, B.C. (Hrsg.). Language and Emotion. An International Handbook. Volume 3. Handbooks of Linguistics and Communication. Berlin, Boston: Mouton de Gruyter. 2105-2126. find paper
Kavroulakis, E., van Kemenade, B. M., Arikan, B. E., Kircher, T., & Straube, B. (2022). The effect of self-generated versus externally generated actions on timing, duration, and amplitude of blood oxygen level dependent response for visual feedback processing. Human brain mapping, 43, no. 16 (2022): 4954-4969.. find paper
Klein, L. K., Maiello, G., Stubbs, K., Proklova, D., Chen, J., Paulun, V. C., Culham, J. D., & Fleming, R. W. (2023). Distinct neural components of visually guided grasping during planning and execution. Journal of Neuroscience, 43(49), 8504-8514. find paper DOI
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 DOI
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, 1-16. find paper DOI
Klever, L., Islam, J., Võ, M., & Billino, J. (2023). Aging attenuates the memory advantage for unexpected objects in real-world scenes. Heliyon, 9(9): e20241. find paper DOI
Klever, L., Mamassian, P., & Billino, J. (2022). Age‑related differences in visual confidence are driven by individual differences in cognitive control capacities. Scientific Reports, 12, 6016. find paper DOI
Klever, Võ, Islam, J., Võ, M. L.-H., & Billino, J. (2023). Aging attenuates the memory advantage for unexpected objects in real-world scenes. Heliyon (9). find paper DOI
Klink H, Kaiser D, Stecher R, Ambrus GG*, Kovács G* (2024). Your place or mine? The neural dynamics of personally familiar scene recognition suggests category independent familiarity encoding. Cereb Cortex. *equal contribution find paper DOI
Kollenda, D., & de Haas, B. (2022). The influence of familiarity on memory for faces and mask wearing. Cogn. Research 7, 45. find paper, DATA
Krugliak, A., Draschkow, D., Vo, M. L. H., & Clarke, A. (2023). Semantic object processing is modulated by prior scene context. find paper
Küçük, E., Foxwell, M., Kaiser, D., & Pitcher, D. (2024). Moving and Static Faces, Bodies, Objects, and Scenes Are Differentially Represented across the Three Visual Pathways.. Journal of Cognitive Neuroscience, 1-13. find paper DOI
Kufer, K., Schmitter, C. V., Kircher, T., & Straube, B. (2024). Temporal recalibration in response to delayed visual feedback of active versus passive actions: an fMRI study.Scientific Reports, 14(1), 4632. find paper
L. Rosenblum, E. Grewe, J. Churan, F. Bremmer (2022). Influence of tactile flow on visual heading perception. Multisensory Research 1, 2022: 1-18. find paper
Lin, L. P. Y., Cavdan, M., Doerschner, K., & Drewing, K. (2023, July). The Influence of Surface Roughness and Surface Size on Perceived Pleasantness. In 2023 IEEE World Haptics Conference (WHC) (pp. 417-424). IEEE. find paper
Linka, M, Broda, MD, Alsheimer, T, *de Haas, B, *Ramon, M (2022). Characteristic fixation biases in Super-Recognizers. Journal of Vision, 22, 17. find paper DOI
Linka, M, Özlem, S, Karimpur, H, Schwarzer, G, de Haas, B (2023). Free viewing biases for complex scenes in preschoolers and adults. Sci Rep 13, 11803. find paper DOI
Lubinus, C., Einhäuser, W., Schiller, F., Kircher, T., Straube, B.*, & van Kemenade, B. M.* (2022). Action-based predictions affect visual perception, neural processing, and pupil size, regardless of temporal predictability. NeuroImage, 263, 119601. find paper DOI
Malik, A., Doerschner, K., & Boyaci, H. (2023). Unmet expectations about material properties delay perceptual decisions. Vision Research, 208, 108223. find paper
Maurer L. K., Maurer H., Hegele M. & Müller H. (2022). Can Stephen Curry really know? - Conscious access to outcome prediction of motor actions. PLoS One, 17(1), e0250047. find paper DOI
Maurer, L. K., Joch, M., Hegele, M., Maurer, H., & Müller, H. (2022). Relevance of predictive and postdictive error information in the course of motor learning. Neuroscience, 486, 77-90. 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, DATA
Meibodi, N., Schubö, A., & Endres, D. M. (2024). Distracted by Previous Experience: Integrating Selection History, Current Task Demands and Saliency in an Algorithmic Model.Computational Brain & Behavior, 1-18. find paper
Meibodi, N., Schubö, A., Endres, D. M. (2022). Sensorimotor processes are not a source of much noise: Sensory-motor and decision components of reaction times. Proceedings of the Annual Meeting of the Cognitive Science Society, 44. find paper, CODE
Metzger, A., & Toscani, M. (2022). Unsupervised learning of haptic material properties. eLife, 11, e64876. find paper
Metzger, A., Lotz, A., Drewing, K. (2022). Neutral Point in Haptic Perception of Softness. In: H. Seifi, et al. Haptics: Science, Technology, Applications. EuroHaptics 2022. Lecture Notes in Computer Science, vol 13235. Springer, Cham. find preprint
Morgenstern, Y., Storrs, K. R., Schmidt, F., Hartmann, F., Tiedemann, H., Wagemans, J., & Fleming, R. W. (2024). High-level aftereffects reveal the role of statistical features in visual shape encoding. Current Biology. find paper , DATA
Morimoto, T., Akbarinia, A., Storrs, K., Cheeseman, J. R., Smithson, H. E., Gegenfurtner, K. R., & Fleming, R. W. (2023). Color and gloss constancy under diverse lighting environments. Journal of Vision, 23(7), 8-8. find paper DOI
Morimoto, T., Akbarinia, A., Storrs, K., Cheeseman, J. R., Smithson, H. E., Gegenfurtner, K. R., & Fleming, R. W. (2023). Color and gloss constancy under diverse lighting environments. Journal of Vision, 23(7), 8-8. find paper DOI
Nara, S., & Kaiser, D. (2024). Integrative processing in artificial and biological vision predicts the perceived beauty of natural images. Science Advances, 10(9), eadi9294. find paper DOI
Ody, E., Kircher, T., Straube, B., & He, Y. (2023). Pre-movement event-related potentials and multivariate pattern of EEG encode action outcome prediction. find paper DOI
Pitcher, D., Sliwinska, M. W., & Kaiser, D. (2023). TMS disruption of the lateral prefrontal cortex increases neural activity in the default mode network when naming facial expressions. Social cognitive and affective neuroscience, 18(1), nsad072. find paper
Prokott, E., & Fleming, R. W. (2022). Identifying specular highlights: Insights from deep learning. Journal of Vision, 22(7), 6-6. find paper
Rosenblum, L., Kreß, A., Arikan, B., Straube, B. & Bremmer, F. (2023). Neural correlates of visual and tactile path integration and their task related modulation. Scientific Reports 13, 9913. find paper
Rosenblum, L., Kreß, A., Schwenk, J. C. B., & Bremmer, F. J (2022). Visuo-tactile heading perception. Journal of Neurophysiology, 128: 1355-1364. find paper
S. Dowiasch, M. Blanke, J. Knöll & F. Bremmer (2023). Spatial localization during open-loop smooth pursuit. Front. Neurosci., 17:1058340. find paper
Schmid AC, Barla P, & Doerschner, K (2023). Material category of visual objects computed from specular image structure. Nature Human Behaviour, 7(7), 1152-1169. find paper
Schmidt, F. (2022). The Perception of “Intelligent” Design in Visual Structure. i-Perception, 13(1), 20416695221080184. find paper DOI
Schmidt, F., Tiedemann, H., Fleming, R. W., & Morgenstern, Y. (2023). Inferring shape transformations in a drawing task. Memory & Cognition. find paper DOI
Schmitt, C., Krala, M., & Bremmer, F. (2022). Neural signatures of actively controlled self-motion and the subjective encoding of distance. eNeuro, 9(6). eneuro.0137-21. find paper
Schmitter, C. V., Kufer, K., Steinsträter, O., Sommer, J., Kircher, T., & Straube, B. (2023). Neural correlates of temporal recalibration to delayed auditory feedback of active and passive movements.Human Brain Mapping, 44(17), 6227-6244. find paper
Schmitter, C.V. & Straube, B. (2022). The impact of cerebellar transcranial direct current stimulation (tDCS) on sensorimotor and inter-sensory temporal recalibration. Frontiers in Human Neuroscience, 16, 998843. find paper DOI
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 DOI
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 DOI
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,
Schwarzer, G., Gehb, G., Kelch, A., Gerhard-Samunda, T. & Jovanovic, B. (2022). Locomotion training contributes to 6-month-old infants' mental rotation ability. Human Movement Science, 85, 102979. find paper
Stegmann, U. E., & Schmidt, F. (2023). Homology judgements of pre-evolutionary naturalists explained by general human shape matching abilities. Scientific Reports, 13, 12269. find paper, DATA
Stewart, E. E. M., & Fleming R. W. (2023). The eyes anticipate where an object will move based on its shape. Current Biology, 33(17), R894-R895. find paper DOI
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
Stewart, E. E., Hartmann, F. T., Morgenstern, Y., Storrs, K. R., Maiello, G., & Fleming, R. W. (2023). Mental object rotation based on two-dimensional visual representations. Current Biology, 32(21), R1224-R1225. find paper DOI
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