Filter by:
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2003). Role of learning in biological motion recognition. Journal of Vision, 3, 84a. [More] [Bibtex]
Thornton, I., Edelman, S. & Giese, M. A. (2003). Metric category spaces of biological motion. Journal of Vision 3, 83a. [More] [Bibtex]
Casile, A. & Giese, M. A. (2003). Motion and Form information in the recognition of point-light stimuli. In: Bülthoff H. H., Gegenfurtner KR, Mallot HA, Ulrich R, Wichmann F A (eds): Beiträge zur 6. Tübinger Wahrnehmungskonferenz, Knirsch, Kirchentellinsfurt, 91. [More] [Bibtex]
Giese, M. A. (2003). Learning recurrent neural models with minimal complexity. Neurocomputing, 52-54, 277-283. [More] [Bibtex]
Giese, M. A. & Poggio, T. A. (2003). Neural mechanisms for the recognition of biological movements and action. Nature Reviews Neuroscience, 4, 179-192. [More] [Bibtex]
Hock, H. S., Schöner, G. & Giese, M. A. (2003). The dynamical foundations of motion pattern formation: stability, selective adaptation, and perceptual continuity. Perception and Psychophysics, 65, 429-457. [More] [Bibtex]
Ilg, W., Bakir, G. H., Franz, M. O. & Giese, M. A. (2003). Hierarchical Spatio-Temporal Morphable Models for Representation of complex movements for Imitation Learning. In Proceedings of the 11th IEEE International Conference on Advanced Robotics, Coimbra, Juni 2003, 453-458. [More] [Bibtex]
Ilg, W., Bakir, G. H., Mezger, J. & Giese, M. A. (2003). On the Representation, Learning and Transfer of Spatio-Temporal Movement Characteristics. In Proceedings of the 3th IEEE International Conference on Humanoid Robotics, Karlsruhe, Oktober 2003. [More] [Bibtex]
Leopold, D. A., Giese, M. A., Logothetis, N. K. & Bondar, I. V. (2003). Prototype-referenced encoding of faces in the monkey inferotemporal cortex. Society of Neuroscience, Poster no. 590.7. [More] [Bibtex]
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2003). Learning of artificial biological motion: Comparison between natural and synthetic trajectories. In: Bülthoff H. H., Gegenfurtner KR, Mallot HA, Ulrich R, Wichmann FA (eds): Beiträge zur 6. Tübinger Wahrnehmungskonferenz; Knirsch, Kirchentellinsfurt, 152. [More] [Bibtex]
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2003). Learning of natural and synthetic biological motion. In: N. Elsner and H. Zimmermann (eds): Proceedings of the 5th Meeting of the German Neuroscience Society, Thieme, Stuttgart, 627. [More] [Bibtex]
Ilg, W., Franz, M. O., Bakir, G. H. & Giese, M. A. (2003). Representation of Complex Movement Sequences based on Hierarchical Spatio-temporal Correspondence for Imitation Learning in Robotics. In: Bülthoff, H. H., Gegenfurtner KR, Mallot HA, Ulrich R, Wichmann FA (eds): Beiträge zur 6. Tübinger Wahrnehmungskonferenz, Knirsch, Kirchentellinsfurt. [More] [Bibtex]
Bakir, G. H., Ilg, W., Franz, M. O. & Giese, M. A. (2003). Constraints measures and reproduction of style in robot imitation learning. In: Bülthoff H. H., Gegenfurtner KR, Mallot HA, Ulrich R, Wichmann FA (eds): Beiträge zur 6. Tübinger Wahrnehmungskonferenz; Knirsch, Kirchentellinsfurt, 70. [More] [Bibtex]
Ilg, W. & Giese, M. A. (2002). Modeling of movement sequences based on hierarchical spatio-temporal correspondences of movement primitives. Bülthoff H H, Lee S W, Poggio T, Wallraven C (eds.): Biologically motivated Computer Vision, 528-537. [More] [Bibtex]
Ilg, W. & Giese, M. A. (2002). Modeling of movement sequences based on hierarchical spatial-temporal correspondences of movement primitives. In Wuerz RP, Lappe M (eds): Dynamic Perception, 127-132. [More] [Bibtex]
Giese, M. A., Jastorff, J. & Kourtzi, Z. (2002). Learning of the discrimination of artificial complex biological motion. Dynamic Perception; Infix, Berlin, 133-138.. [More] [Bibtex]
Xie, X. & Giese, M. A. (2002). Nonlinear dynamics of direction-selective recurrent neural media. Phys Rev E Stat Nonlin Soft Matter Phys. 65 (5 Pt 1):051904 (2002)., 65(5, Pt. 1). [More] [Bibtex]
Yu, A. J., Poggio, T. A. & Giese, M. A. (2002). Biophysiologically plausible implementations of maximum operation. Neural Computation, 14(12), 2857-2881. [More] [Bibtex]
Giese, M. A. & Lappe, M. (2002). Measurement of generalization fields for the recognition of biological motion. Vision Researech, 38, 1847-1858. [More] [Bibtex]
Giese, M. A. & Xie, X. (2002). Exact solution of the nonlinear dynamics of recurrent neural mechanisms for direction selectivity. Neurocomputing,44-46(C): 417-422., 44-46(C), 417-422. [More] [Bibtex]
Giese, M. A. (2002). Prototypes of biological movements in brains and machines. Biologically motivated Computer Vision, 157-170. [More] [Bibtex]
Giese, M. A., Knappmeyer, B. & B\"ulthoff, H. H. (2002). Automatic synthesis of sequences of human movements by linear combination of learned example patterns. Bulthoff H H, Lee S W, Poggio T, Wallraven C (eds.): Biologically motivated Computer Vision, 538-547. [More] [Bibtex]
Poggio, T. A. & Giese, M. A. (2002). Neural mechanisms for the recognition of biological movements and actions. AI Memo #AI Memo 2002-012/CBCL Paper #219. Massachusetts Institute of Technology, Cambridge, MA. [More] [Bibtex]
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2002). Recognition of artificial complex biological motion generated by motion morphing. 5. Inderdisciplinary College 2002, Günne, Germany. POSTER AWARD. [More] [Bibtex]
Giese, M. A. (2002). Hierarchical neural model for the recognition of biological motion. Journal of Vision, 1(3), 356a. [More] [Bibtex]
Jastorff, J. & Giese, M. A. (2002). Neural model for the learning of biological motion. Perception, 31(119). [More] [Bibtex]
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2002). Role of learning in biological motion recognition. 2nd Workshop on Biologically Motivated Computer Vision, T\"ubingen, Germany.. [More] [Bibtex]
Ilg, W., Churan, J. & Giese, M. A. (2002). Biologische Bewegung definiert durch Bewegung 2. Ordnung. In: Bülthoff H H, Gegenfurtner K R, Mallot H P, Ulrich R: Beiträge zur 5. Tübinger Wahrnehmungskonferenz. 121. [More] [Bibtex]
Ilg, W., Golla, H., Giese, M. A. & Thier, P. (2002). Quantitative Movement Analysis based on Hierarchical Spatial Temporal Correspondence of Movement Primitives. 11th Annual Meeting of the European Society for Movement Analysis in Adults and Children. Leuven,. [More] [Bibtex]
Vaina, L. M. & Giese, M. A. (2002). Neuronal plausibles Modell f\"ur die Erkennung biologischer Bewegug. In: B\"ulthoff H. H., Gegenfurtner K R, Mallot H P, Ulrich R: Beiträge zur 5. T\"ubinger Wahrnehmungskonferenz. 110. [More] [Bibtex]
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2002). Learning of artificial biological motion patterns. 32nd Annual Meeting of the Society for Neuroscience, Orlando, United States.. [More] [Bibtex]
Jastorff, J., Kourtzi, Z. & Giese, M. A. (2002). Learning of the discrimination of artificial complex biological motion. In: Wuerz RP, Lappe M (eds): Dynamic Perception, 133-138. [More] [Bibtex]
Giese, M. A. (2002). Biologische Bewegung definiert durch Bewegung 2. Ordnung. In: Baumann M, Keinath A, Krems J F (eds.): Abstracts zur 44. Tagung Experimentell Arbeitender Psychologen. TU Chenitz, March, 2002, 23. [More] [Bibtex]
Casile, A. & Giese, M. A. (2002). Critical Features for biological Motion. 2nd Workshop on Biologically Motivated Computer Vision, T\"ubingen, Germany.. [More] [Bibtex]
Endres, D. & Schindelin, J. (2002). A New Metric for Probability Distributions. IEEE Transactions on Information Theory, 49(7), 1858-1860. [More] [Bibtex]
Moukovski, A., Gorinevski, D. M., Giese, M. A. & von Seelen, W. (2001). Formation of pinheels of preferred orientation by learning sparse neural representations of natural images. Neurocomputing 44-46(C):549-553. (reprinted in "Computational Neuroscience: Trends in Research" 2002, 1st ed., ISBN13:9780444511348, Elsevier Science {&} Technology.). [More] [Bibtex]
Xie, X. & Giese, M. A. (2001). Generating velocity tuning by asymmetric recurrent connections. In: T. G. Dietterich and S. Becker and Z. Ghahramani (eds): Advances in Neural Information Processing Systems, 14. [More] [Bibtex]
Vaina, L. M. & Giese, M. A. (2001). Pathways in the analysis of biological motion: computational model and fMRI results. Perception, 23(suppl.), 116. [More] [Bibtex]
Giese, M. A. & Poggio, T. A. (2000). Quantification and Classification of Locomotion Patterns by Spatio-temporal Morphable Models. In: Third IEEE Workshop on Visual Surveillance, Dublin, Ireland, July 1, 2000. [More] [Bibtex]
Giese, M. A. & Poggio, T. A. (2000). Morphable models for the analysis and synthesis of complex motion patterns. International Journal of Computer Vision, 38(1), 59-73. [More] [Bibtex]
Giese, M. A. (2000). Neural field model for the recognition of biological motion. Second International ICSC Symposium on Neural Computation NC 2000, May 23-26, Berlin, Germany. [More] [Bibtex]
Giese, M. A. (2000). Neural Model for the Recognition of Biological Motion. In: Dynamische Perzeption 2, G. Baratoff and H. Neumann (eds.), 105-110. [More] [Bibtex]
Giese, M. A. (2000). Learning-based neural model for the recognition of biological motion. Conference of the Federation of European Neuroscience Research.. [More] [Bibtex]
Yu, A. J., Poggio, T. A. & Giese, M. A. (2000). Neural mechanisms for the realization of maximum operations. Conference of the Federation of European Neuroscience Research, Brighton, June, 2000.. [More] [Bibtex]
Yu, A. J., Poggio, T. A. & Giese, M. A. (2000). Neural circuits for the realization of maximum operation. Society of Neuroscience Abstracts, 26, 1202. [More] [Bibtex]
Lappe, M. & Giese, M. A. (2000). Categorization of biological movement patterns. Investigative Ophtalmology and Visual Sciences, 41.. [More] [Bibtex]
Giese, M. A. (2000). Learning-based neural model for the recognition of biological motion patterns. Investigative Ophtalmology and Visual Sciences, 41. [More] [Bibtex]
Giese, M. A. (1999). Evidence for Multi-functional Interactions in Early Visual Motion Processing,. Trends in Neurosciences, 22, 287-290. [More] [Bibtex]
Giese, M. A. (1999). Quick work but variable quality. Nature, 401(13). [More] [Bibtex]
Jancke, D., Erlhagen, W., Dinse, H. R., Akhavan, A. C., Steinhage, A., Schöner, G. et al. (1999). Population representation of retinal position in cat primary visual cortex: interaction and dynamics. Journal of Neuroscience, 19(20), 9016-9028. [More] [Bibtex]

Results 251 - 300 of 331