Publications

Year: 2007

Dayan, E., Casile, A., Levit-Binnun, N., Giese, M. A., Hendler, T. & Flash, T. (2007). Neural representations of kinematic laws of motion: evidence for action-perception coupling. Proceedings of the National Academy of Sciences (PNAS), 104(51), 20582-20587.
Neural representations of kinematic laws of motion: evidence for action-perception coupling
Authors: Dayan, Eran Casile, Antonino Levit-Binnun, Nava Giese, Martin A.; Hendler, Talma Flash, Tamar
Research Areas: Uncategorized
Type of Publication: Article
Journal: Proceedings of the National Academy of Sciences (PNAS)
Volume: 104
Number: 51
Pages: 20582-20587
Year: 2007
Month: 12
Full text: PDF | Online version
Giese, M. A. & Leopold, D. A. (2007). Wie wir Gesichter erkennen. Spektrum der Wissenschaft, 3/7, 20-23.
Wie wir Gesichter erkennen
Authors: Giese, Martin A.; Leopold, David A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: PDF | Online version
Ilg, W., Golla, H., Thier, P. & Giese, M. A. (2007). Specific influences of cerebellar dysfunctions on gait. Brain, 130, 786-798.
Specific influences of cerebellar dysfunctions on gait
Authors: Ilg, Winfried; Golla, Heidrun Thier, Peter Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: PDF | Online version
Thier, P., Caggiano, V., Fogassi, L., Rizzolatti, G., Casile, A. & Giese, M. A. (2007). Differential encoding of actions in near and far space in the mirror neuron system of monkeys. Proc. of 37th Annual Meeting of the Society for Neuroscience, 3rd-7th November 2007, San Diego (USA).
Differential encoding of actions in near and far space in the mirror neuron system of monkeys
Authors: Thier, Peter Caggiano, Vittorio Fogassi, Leonardo Rizzolatti, Giacomo Casile, Antonino Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Serre, T. & Giese, M. A. (2007). Rapid Serial Action Presentation: New paradigm for the study of movement recognition. Journal of Vision, 7(9), 559a.
Rapid Serial Action Presentation: New paradigm for the study of movement recognition
Authors: Serre, Tomas Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Roether, C. L., Omlor, L. & Giese, M. A. (2007). Not just the face: asymmetry of emotional body expression. Journal of Vision, 7(9), 554a.
Not just the face: asymmetry of emotional body expression
Authors: Roether, C. L. Omlor, Lars Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Omlor, L., Giese, M. A. & Roether, C. L. (2007). Left-right asymmetry of emotionally expressive full-body movement. B\"ulthoff H H, Chatziastros A, Mallot H A, Ulrich R (eds): Proceedings of the 10th. T\"ubinger Perception Conference (TWK 2007), Knirsch, Kirchentellinsfurt, 152.
Left-right asymmetry of emotionally expressive full-body movement
Authors: Omlor, Lars Giese, Martin A.; Roether, C. L.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Roether, C. L., Omlor, L. & Giese, M. A. (2007). Asymmetry of emotions expressed in full-body movement. Perception, 36(suppl.), 75.
Asymmetry of emotions expressed in full-body movement
Authors: Roether, Claiere L. Omlor, Lars Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Park, A.-N., Omlor, L. & Giese, M. A. (2007). Synergy-based method for the self-organization of full-body movements with high degree of realism. B\"ulthoff H H, Chatziastros A, Mallot H A, Ulrich R (eds): Proceedings of the 10th. T\"ubinger Perception Conference (TWK 2007), Knirsch, Kirchentellinsfurt, 152.
Synergy-based method for the self-organization of full-body movements with high degree of realism
Authors: Park, Aee-Ni Omlor, Lars Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Mukovskiy, A. & Giese, M. A. (2007). Style synthesis of human body motion based on learned spatio-temporal synergies. B\"ulthoff H H, Chatziastros A, Mallot H A, Ulrich R (eds): Proceedings of the 10th. T\"ubinger Perception Conference (TWK 2007), Knirsch, Kirchentellinsfurt, 152.
Style synthesis of human body motion based on learned spatio-temporal synergies
Research Areas: Uncategorized
Type of Publication: Article
Giese, M. A., Caggiano, V., Fogassi, L., Rizzolatti, G., Thier, P. & Casile, A. (2007). Mirror neurons encoding the expectation of a reward. Proceedings of 37th Annual Meeting of the Society for Neuroscience , 3-7 November, San Diego (USA).
Mirror neurons encoding the expectation of a reward
Authors: Giese, Martin A.; Caggiano, Vittorio Fogassi, Leonardo Rizzolatti, Giacomo Thier, Peter Casile, Antonino
Research Areas: Uncategorized
Type of Publication: Article
Fleischer, F., Casile, A. & Giese, M. A. (2007). Neural model for the visual recognition of goal-directed actions. ESF-EMBO Symposium: Three Dimensional Sensory and Motor Space: Perceptual Consequences of Motor Action , 6-11 October, Sant Feliu de Guixols, Spain.
Neural model for the visual recognition of goal-directed actions
Abstract:

Neural model for the visual recognition of goal-directed actions The visual recognition of goal-directed movements is crucial for the learning of actions, and possibly for the understanding of the intentions and goals of others. The discovery of mirror neurons has stimulated a vast amount of research investigating possible links between action perception and action execution [1,2]. However, it remains largely unknown what the precise nature this visuo-motor interaction is, and which relevant computational functions can be accomplished by purely visual processing. We present a neurophysiologically inspired model for the recognition of hand movements demonstrating that a substantial degree of action understanding can be accomplished by appropriate analysis of spatio-temporal visual features. The model is based on a hierarchical feed-forward architecture for invariant object and motion recognition [3,4,5] employing principles that are similar to the ones that have been established for stationary object recognition. The model addresses in particular how invariance against position variations of object and effector can be accomplished, while preserving the relative spatial information that is required for an accurate recognition of the hand-object interaction. It is demonstrated that the model is able to correctly classify different grasp types determining whether the action matches correctly the object affordance. The model demonstrates that well-established simple physiologically plausible neural mechanisms account for important aspects of visual action recognition without the need of a detailed 3D representation of object and action. It complements existing models and provides a basis for a further quantitative analysis of visual influences on action recognition. [1] Di Pellegrino, G. et al. (1992): Exp. Brain Res. 91, 176-180. [2] Rizzolatti, G. and Craighero, L. (2004): Annu. Rev. Neurosci. 27, 169-192. [3] Riesenhuber, M. and Poggio, T. (1999): Nat. Neurosci. 2, 1019-1025. [4] Giese, A.M. and Poggio, T. (2003): Nat. Rev. Neurosci. 4, 179-192. [5] Serre, T. et al. (2007): IEEE Pattern Anal. Mach. Int. 29, 411-426.

Authors: Fleischer, Falk Casile, Antonino Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Fleischer, F. & Giese, M. A. (2007). Neural model for the visual recognition of goal-directed hand movements. B\"ulthoff H H, Chatziastros A, Mallot H A, Ulrich R (eds): Proceedings of the 10th. T\"ubinger Perception Conference (TWK 2007), Knirsch, Kirchentellinsfurt, 152.
Neural model for the visual recognition of goal-directed hand movements
Abstract:

Neural model for the visual recognition of goal-directed hand movements The visual recognition of goal-directed movements is crucial for the learning of actions, and possibly for understanding the intentions and goals of others. The discovery of mirror neurons has stimulated a vast amount of research investigating possible links between action perception and action execution [1,2,3]. However, the neural mechanisms underlying the visual recognition of goal-directed movements remain largely unclear. One class of theories suggests, that action recognition is mainly based on a covert internal re-simulation of executed motor acts, potentially even in a joint coordinate system. Another set of approaches assumes that a substantial degree of action understanding might be accomplished by appropriate analysis of spatio-temporal visual features, employing mechanisms that meanwhile are largely accepted as basis for the recognition of non-moving stationary objects. We present a neurophysiologically inspired model for the recognition of hand movements that demonstrates the feasibility of the second approach, recognizing hand actions from real video data. The model addresses in particular how invariance against position variations of object and effector can be accomplished, while preserving the relative spatial information that is required for an accurate recognition of the hand-object interaction. The model is based on a hierarchical feed-forward architecture for invariant object and motion recognition [4,5]. It extends previous approaches to complex stimuli like hands, and adds the capability for the processing of position information. The ability to recognize objects relies on a dictionary of shape-selective cells that are learned in an unsupervised manner from natural images. Feature complexity and invariance properties increase along the hierarchy by linear and nonlinear pooling operations. It is demonstrated that the model is able to correctly classify different grasp types and is suitable for determining the spatial relationships between effector and object, which are crucial for determining whether the action matches correctly the object affordance. The model demonstrates that well-established simple physiologically plausible neural mechanisms account for important aspects of visual action recognition without the need of a detailed 3D representation of object and action. This seems important since the robust extraction of joint angles from videos is a hard and largely unresolved computational problem, for which so far no physiologically plausible neural models have been proposed. [1] di Pellegrino, G. et al. (1992): Exp. Brain Res. 91, 176-180 [2] Gallese, V. et al. (1996): Brain 119, 593-609 [3] Rizzolatti, G. and Craighero, L. (2004): Annu. Rev. Neurosci. 27, 169-192 [4] Riesenhuber, M. and Poggio, T. (1999): Nat. Neurosci. 2, 1019-1025 [5] Giese, A.M. and Poggio, T. (2003): Nat. Rev. Neurosci. 4, 179-192

Authors: Fleischer, Falk Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Curio, C., Breidt, M., Kleiner, M., B\, H. H. & Giese, M. A (2007). High-level after-effects in the recognition of dynamic facial expressions. Journal of Vision Perception, 36(suppl.), 994.
High-level after-effects in the recognition of dynamic facial expressions
Authors: Curio, Cristobal Breidt, Martin Kleiner, Mario B\, H. H. Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: In Collection
JRESEARCH_BOOK_TITLE: Journal of Vision
Pages: 994
Curio, C., Breidt, M., Kleiner, M., B\"ulthoff, H. H. & Giese, M. A. (2007). High-level after-effects in the recognition of dynamic facial expressions. Journal of Vision, 7(9), 994.
High-level after-effects in the recognition of dynamic facial expressions
Authors: Curio, Cristobal Breidt, Martin Kleiner, Mario B\"ulthoff, H. H. Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Caggiano, V., Fogassi, L., Rizzolatti, G., Thier, P., Casile, A. & Giese, M. A (2007). Neurons in monkey pre-motor cortex (area F5) responding to filmed actions Perception, 36(suppl.), 73.
Neurons in monkey pre-motor cortex (area F5) responding to filmed actions
Authors: Caggiano, Vittorio Fogassi, Leonardo Rizzolatti, Giacomo Thier, Peter Casile, Antonino Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: In Collection
Full text: Online version
Caggiano, V., Fogassi, L., Rizzolatti, G., Thier, P., Casile, A. & Giese, M. A (2007). Mirror neurons responding to filmed actions Proc. of 37th Annual Meeting of the Society for Neuroscience , 3rd-7th November 2007, San Diego (USA)..
Mirror neurons responding to filmed actions
Authors: Caggiano, Vittorio Fogassi, Leonardo Rizzolatti, Giacomo Thier, Peter Casile, Antonino Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: In Collection
Full text: Online version
Curio, C., Breidt, M., Kleiner, M., B\"ulthoff, H. H. & Giese, M. A. (2007). Perception of dynamic facial expressions probed by a new high-level after-effect. B\"ulthoff H H, Chatziastros A, Mallot H A, Ulrich R (eds): Proceedings of the 10th. T\"ubinger Perception Conference (TWK 2007), Knirsch, Kirchentellinsfurt, 152.
Perception of dynamic facial expressions probed by a new high-level after-effect
Authors: Curio, Cristobal Breidt, Martin Kleiner, Mario B\"ulthoff, H. H. Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version

Year: 2006

Ilg, W., Golla, H. & Giese, M. A. (2006). Velocity-dependent stability of gait for patients with balance impairments can be explained by biomechanical stabilization. XVIIth Conference of the International Society for Postural and Gait Research, 24(2), S113-S114.
Velocity-dependent stability of gait for patients with balance impairments can be explained by biomechanical stabilization
Authors: Ilg, Winfried; Golla, Heidrun Giese, Martin A.
Type of Publication: Article
Full text: PDF | Online version
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2006). Learning to discriminate complex movements: Natural vs artificial trajectories. Journal of Vision, 6(8), 791-804.
Learning to discriminate complex movements: Natural vs artificial trajectories
Authors: Jastorff, J. Kourtzi, Zoe Giese, Martin A.
Type of Publication: Article
Full text: Online version
Leopold, D. A., Bondar, I. V. & Giese, M. A. (2006). Norm-based face encoding by single neurons in the monkey inferotemporal cortex. Nature, 442(7102), 572-575.
Norm-based face encoding by single neurons in the monkey inferotemporal cortex
Authors: Leopold, David A. Bondar, Igor V. Giese, Martin A.
Type of Publication: Article
Full text: Online version
Omlor, L. & Giese, M. A. (2006). Unsupervised learning of spatio-temporal primitives of emotional gait. Perception and Interactive Technologies 2006, Lecture Notes in Artificial Intelligence, 4021, 188-192.
Unsupervised learning of spatio-temporal primitives of emotional gait
Authors: Omlor, Lars Giese, Martin A.
Type of Publication: Article
Full text: Online version
Casile, A. & Rucci, M. (2006). A theoretical analysis of the influence of fixational instability on the development of thalamocortical connectivity. Neural Computation, 18(3), 569-590.
A theoretical analysis of the influence of fixational instability on the development of thalamocortical connectivity
Authors: Casile, Antonino Rucci, Michele
Type of Publication: Article
Full text: Online version
Casile, A. & Giese, M. A. (2006). Non-visual motor learning influences the recognition of biological motion. Current Biology, 16(1), 69-74.
Non-visual motor learning influences the recognition of biological motion
Authors: Casile, Antonino Giese, Martin A.
Type of Publication: Article
Full text: Online version
Omlor, L., Roether, C. L. & Giese, M. A. (2006). Optimal integration of movement components for the visual recognition of emotional body expressions. In: H.H. B\"ulthoff, K. Gegenfurtner, H.A. Mallot {{&}} R. Ulrich (eds.) Beiträge zur 9. T\"ubinger Wahrnehmungskonferenz. Kirchentellinsfurt: Knirsch.
Optimal integration of movement components for the visual recognition of emotional body expressions
Authors: Omlor, Lars Roether, C. L. Giese, Martin A.
Type of Publication: Article
Omlor, L., Giese, M. A. & Roether, C. L. (2006). Extraction of spatio-temporal primitives from emotional gait patterns. 5th Forum of European Neurosciences (FENS), Vienna, Austria.
Extraction of spatio-temporal primitives from emotional gait patterns
Authors: Omlor, Lars Giese, Martin A.; Roether, C. L.
Type of Publication: Article
Omlor, L. & Giese, M. A. (2006). Blind source separation for over-determined delayed mixtures. NIPS'06: Proceedings of the 19th International Conference on Neural Information Processing Systems, 19, 1049-1056.
Blind source separation for over-determined delayed mixtures
Authors: Omlor, Lars Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: PDF | Online version
Curio, C., Breidt, M., Kleiner, M., Vuong, Q. C., Giese, M. A. & B\"ulthoff, H. H. (2006). Semantic 3D motion retargetting facial animation. ACM Symposium on Applied Perception in Graphics and Visualization (2006), Boston, MA, ACM press, 77-84.
Semantic 3D motion retargetting facial animation
Authors: Curio, Cristobal Breidt, Martin Kleiner, Mario Vuong, Q. C. Giese, Martin A.; B\"ulthoff, Heinrich H.
Research Areas: Uncategorized
Type of Publication: Article
Full text: PDF | Online version
Omlor, L., Giese, M. A. & Roether, C. L. (2006). Optimal Bayesian integration of components during the visual recognition of emotional body expressions. Journal of Vision 6, 1040a.
Optimal Bayesian integration of components during the visual recognition of emotional body expressions
Authors: Omlor, Lars Giese, Martin A.; Roether, C. L.
Research Areas: Uncategorized
Type of Publication: Article
Full text: PDF | Online version
Omlor, L., Giese, M. A. & Roether, C. L. (2006). Unsupervised learning of perceptional important features in emotional body expressions. In: H.H. B\"ulthoff, K. Gegenfurtner, H.A. Mallot {{&}} R. Ulrich (eds.) Beiträge zur 9. T\"ubinger Wahrnehmungskonferenz. Kirchentellinsfurt: Knirsch.
Unsupervised learning of perceptional important features in emotional body expressions
Authors: Omlor, Lars Giese, Martin A.; Roether, Claire L.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Omlor, L. & Giese, M. A. (2006). Extraction of spatio-temporal primitives of emotional body expressions. Meeting of the Organization of Computational Neuroscience (CNS), Edinburgh, UK.
Extraction of spatio-temporal primitives of emotional body expressions
Authors: Omlor, Lars Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Giese, M. A., Omlor, L. & Roether, C. L. (2006). Learning and perceiving informative spatio-temporal components from emotional body expressions. Journal of Vision, 6(6), 795.
Learning and perceiving informative spatio-temporal components from emotional body expressions
Authors: Giese, Martin A.; Omlor, Lars Roether, C. L.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Endres, D. (2006). Bayesian and Information-Theoretic Tools for Neuroscience. Phd Thesis, School of Psychology, University of St. Andrews, U.K..
Bayesian and Information-Theoretic Tools for Neuroscience
Abstract:

he overarching purpose of the studies presented in this report is the exploration of the uses of information theory and Bayesian inference applied to neural codes. Two approaches were taken: Starting from first principles, a coding mechanism is proposed, the results are compared to a biological neural code. Secondly, tools from information theory are used to measure the information contained in a biological neural code. Chapter 3: The REC model proposed by Harpur and Prager codes inputs into a sparse, factorial representation, maintaining reconstruction accuracy. Here I propose a modification of the REC model to determine the optimal network dimensionality. The resulting code for unfiltered natural images is accurate, highly sparse and a large fraction of the code elements show localized features. Furthermore, I propose an activation algorithm for the network that is faster and more accurate than a gradient descent based activation method. Moreover, it is demonstrated that asymmetric noise promotes sparseness. Chapter 4: A fast, exact alternative to Bayesian classification is introduced. Computational time is quadratic in both the number of observed data points and the number of degrees of freedom of the underlying model. As an example application, responses of single neurons from high-level visual cortex (area STSa) to rapid sequences of complex visual stimuli are analyzed. Chapter 5: I present an exact Bayesian treatment of a simple, yet sufficiently general probability distribution model. The model complexity, exact values of the expectations of entropies and their variances can be computed with polynomial effort given the data. The expectation of the mutual information becomes thus available, too, and a strict upper bound on its variance. The resulting algorithm is first tested on artificial data. To that end, an information theoretic similarity measure is derived. Second, the algorithm is demonstrated to be useful in neuroscience by studying the information content of the neural responses analyzed in the previous chapter. It is shown that the information throughput of STS neurons is maximized for stimulus durations of approx. 60ms.

Authors: Endres, Dominik
Research Areas: Uncategorized
Type of Publication: Phd Thesis
University: School of Psychology, University of St. Andrews, U.K.
Full text: Online version

Year: 2005

Sigala, R., Serre, T., Poggio, T. A. & Giese, M. A. (2005). Learning features of intermediate complexity for the recognition of biological motion. Springer, Berlin.
Learning features of intermediate complexity for the recognition of biological motion
Authors: Sigala, R. Serre, Tomas Poggio, Tomaso A. Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Book
Publisher: Springer, Berlin
Month: 01
Full text: Online version
Rucci, M. & Casile, A. (2005). Fixational instability and natural image statistics: implications for early visual representations. Network: Computation in Neural Systems, 16(2-3), 121-138.
Fixational instability and natural image statistics: implications for early visual representations
Authors: Rucci, Michele Casile, Antonino
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Casile, A. & Giese, M. A. (2005). Critical features for the recognition of biological motion. Journal of Vision, 5, 348-360.
Critical features for the recognition of biological motion
Authors: Casile, Antonino Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Curio, C. & Giese, M. A. (2005). Combining view-based and model-based tracking of articulated human movements. I7th IEEE Workshop on Applications of Computer Vision / IEEE Workshop on Motion and Video Computing (WACV/MOTION 2005), 5-7 January 2005, Breckenridge, CO, USA, 261-268.
Combining view-based and model-based tracking of articulated human movements
Authors: Curio, Cristobal Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Giese, M. A. (2005). Computational principles for the recognition of biological movements.
Computational principles for the recognition of biological movements
Authors: Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Book
Full text: Online version
Giese, M. A. & Leopold, D. A. (2005). Physiologically inspired neural model for the encoding of face spaces. Neurocomputing, 65-66, 93-101.
Physiologically inspired neural model for the encoding of face spaces
Authors: Giese, Martin A.; Leopold, David A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: PDF | Online version
Mezger, J., Ilg, W. & Giese, M. A. (2005). Trajectory synthesis by hierarchical spatio-temporal correspondence: comparison of different methods. ACM Symposium on Applied Perception in Graphics and Visualization 2005, A Corona, Spain, August 26- 28, 2005, 25-32.
Trajectory synthesis by hierarchical spatio-temporal correspondence: comparison of different methods
Authors: Mezger, Johannes Ilg, Winfried; Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Sarkheil, P., Jastorff, J., Kourtzi, Z. & Giese, M. A. (2005). Categorization of complex dynamic patterns in the human brain. In: B\"ulthoff H. H. , H.A.Mallot, R. Ulrich, F.A. Wichmann (eds): Beiträge zur 8. T\"ubinger Wahrnehmungskonferenz; Knirsch, Kirchentellinsfurt.
Categorization of complex dynamic patterns in the human brain
Authors: Sarkheil, Pegah Jastorff, J. Kourtzi, Zoe Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Roether, C. L. & Giese, M. A. (2005). Statistically optimal integration of synergies in the visual perception of emotion from gait. Perception, 34.
Statistically optimal integration of synergies in the visual perception of emotion from gait
Authors: Roether, C. L. Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Roether, C. L. & Giese, M. A. (2005). Recognizing emotions expressed in human walking: integration of synergies. In: B\"ulthoff H. H., Mallot, H.A., Ulrich R., Wichmann F.A. (eds): Beiträge zur 8. T\"ubinger Wahrnehmungskonferenz, Knirsch, Kirchentellinsfurt..
Recognizing emotions expressed in human walking: integration of synergies
Authors: Roether, C. L. Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Roether, C. L. & Giese, M. A. (2005). Integration of synergies in visual recognition of emotional human walking. Journal of Vision, 5, 942.
Integration of synergies in visual recognition of emotional human walking
Authors: Roether, C. L. Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2005). Learning of biological motion: Combining fMRI and theoretical modeling. In: B\"ulthoff H. H. , H.A.Mallot, R. Ulrich, F.A. Wichmann (eds): Beiträge zur 8. T\"ubinger Wahrnehmungskonferenz; Knirsch, Kirchentellinsfurt.
Learning of biological motion: Combining fMRI and theoretical modeling
Authors: Jastorff, J. Kourtzi, Zoe Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2005). Neural plasticity mechanisms for learning of biological motion. Journal of Vision, 5, 932.
Neural plasticity mechanisms for learning of biological motion
Authors: Jastorff, J. Kourtzi, Zoe Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2005). Visual learning of complex movements: Investigation of neural plasticity mechanisms. Perception, 34(suppl.).
Visual learning of complex movements: Investigation of neural plasticity mechanisms
Authors: Jastorff, J. Kourtzi, Zoe Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version
Graf, M., Prinz, W., Casile, A. & Giese, M. A. (2005). Predicting point-light actions. In: Hommel B, Band G P H, Heij L W, Wolters G (eds) Proceedings of the 14th Meeting of the European Society for Cognitive Psychology, Leiden: European Society for Cognitive Psychology, 40..
Predicting point-light actions
Authors: Graf, Markus Prinz, Wolfgang Casile, Antonino Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Casile, A. & Giese, M. A. (2005). Possible influences of non-visual motor training on the perception of biological motion. 9th European Congress of Psychology, Granada, Spain.
Possible influences of non-visual motor training on the perception of biological motion
Authors: Casile, Antonino Giese, Martin A.
Research Areas: Uncategorized
Type of Publication: Article
Endres, D. & Foldiak, P. (2005). Bayesian Bin Distribution Inference and Mutual Information. IEEE Transactions on Information Theory, 51(11), 3766-3779.
Bayesian Bin Distribution Inference and Mutual Information
Authors: Endres, Dominik Foldiak, Peter
Research Areas: Uncategorized
Type of Publication: Article
Full text: Online version

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