Institut für Neuroinformatik [Publications: Theory of embodied cognition]


	Publications: Theory of embodied cognition

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Publications: Theory of embodied cognition

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Chairs
•	Prof. Dr. Laurenz Wiskott
•	Prof. Dr. Gregor Schöner
Research groups
•	Theory of embodied cognition Prof. Dr. Gregor Schöner
•	Theory of Neural Systems Prof. Dr. Laurenz Wiskott
•	Neural Plasticity Lab PD Dr. Hubert Dinse
•	Real-Time Optical Imaging Lab Dr. Dirk Jancke
•	Organic Computing Dr. Rolf Würtz
•	Optimization of adaptive systems Jun.-Prof. Dr. Christian Igel
•	Autonomous robotics Dr. Ioannis Iossifidis
•	Medical Image Processing Dr. Susanne Winter
•	Real-time computer vision Jan Salmen
•	Multi-sensory fusion Dr. Andrey Bogdanov

Publications

[1]	Christian Faubel and Gregor Schöner. Learning to recognize objects on the fly: a neurally based dynamic field approach. Neural Networks Special Issue on Neuroscience and Robotics, accepted, 2008. [ .pdf ]
[2]	J S Johnson, J P Spencer, and G Schöner. Moving to higher ground: The dynamic field theory and the dynamics of visual cognition. New Ideas in Psychology, 2007. [ .pdf ]
[3]	W L Hsu, J P Scholz, G Schöner, J J Jeka, and T Kiemel. Control and estimation of posture during quiet stance depends on multi-joint coordination. Journal of Neurophysiology, 97:3024-3035, 2007. [ .pdf ]
[4]	J Feng, J P Spencer, G Schöner, M W Clearfield, and E Thelen. A novel technology for investigating the dynamics of infant perseverative reaching. Behavior Research Methods, 39:911-919, 2007. [ .pdf ]
[5]	M L Latash, J P Scholz, and G Schöner. Toward a new theory of motor synergies. Motor Control, 11:276-308, 2007. [ .pdf ]
[6]	G Schöner and J P Scholz. Analyzing variance in multi-degree-of-freedom movements: Uncovering structure versus extracting correlations. Motor Control, 11:259-275, 2007. [ .pdf ]
[7]	G Schöner and E Dineva. Dynamic instabilities as mechanisms for emergence. Developmental Science, 10:69-74, 2007. [ .pdf ]
[8]	J Lipinski, J P Spencer, L K Samuelson, and G Schöner. Spam-ling: A dynamical model of spatial working memory and spatial language. In Proceedings of the 28th Annual Conference of the Cognitive Science Society (CogSci 2006), pages 768-773, Vancouver, Canada, 2006. [ .pdf ]
[9]	J P Spencer and G Schöner. An embodied approach to cognitive systems: A dynamic neural field theory of spatial working memory. In Proceedings of the 28th Annual Conference of the Cognitive Science Society (CogSci 2006)Society (CogSci 2006), pages 2180-2185, Vancouver, Canada, 2006. [ .pdf ]
[10]	V R Simmering, J P Spencer, and G. Schöner. Reference-related inhibition produces enhanced position discrimination and fast repulsion near axes of symmetry. Perception & Psychophysics, 68:1027-1046, 2006. [ .pdf ]
[11]	Claudia Wilimzig, Stefan Schneider, and Gregor Schöner. The time course of saccadic decision making: Dynamic field theory. Neural Networks, 19:1059-1074, 2006. [ .pdf ]
[12]	J P Spencer, M Clearfield, C Corbetta, B Ulrich, P Buchanan, and G Schöner. Moving toward a grand theory of development: In memory of esther thelen. Child Development, 77:1521-1538, 2006. [ .pdf ]
[13]	J S Johnson, J P Spencer, and G Schöner. A dynamic neural field theory of multi-item visual working memory and change detection. In Proceedings of the 28th Annual Conference of the Cognitive Science Society (CogSci 2006), pages 399-404, Vancouver, Canada, 2006. [ .pdf ]
[14]	D F Nichols, H S Hock, and G Schöner. Linking dynamical perceptual decisions at different levels of description in motion pattern formation: Computational simulations. Perception & Psychophysics, 68:515-533, 2006. [ .pdf ]
[15]	V R Simmering, J P Spencer, and G. Schöner. From recall to discrimination: The dynamic neural field theory generalizes across tasks and development. In Proceedings of the 28th Annual Conference of the Cognitive Science Society (CogSci 2006), pages 792-797, Vancouver, Canada, 2006. [ .pdf ]
[16]	G Schöner and E Thelen. Using dynamic field theory to rethink infant habituation. Psychological Review, 113(2):273-299, 2006. [ .pdf ]
[17]	A Pellecchia, C Igel, J Edelbrunner, and G Schöner. Making driver modelling attractive. IEEE Intelligent Systems, 20:8-12, 2005. [ .pdf ]
[18]	C Wilimzig and G Schöner. The emergence of stimulus-response associations from neural activation fields: Dynamic field theory. In Proceedings of the 27th Annual Conference of the Cognitive Science Society, pages 2359 - 2364, Stresa, Italy, 2005. [ .pdf ]
[19]	D Jancke, W Erlhagen, G Schöner, and H R Dinse. Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortex. Journal of Physiology (Paris), 556(3):971-982, 2004. [ .pdf ]
[20]	A Bastian, G Schöner, and A Riehle. Preshaping and continuous evolution of motor cortical representations during movement preparation. European Journal of Neuroscience, 18:2047-2058, 2003. [ .pdf ]
[21]	H S Hock, G Schöner, and M A Giese. The dynamical foundations of motion pattern formation: Stability, selective adaptation, and perceptual continuity. Perception & Psychophysics, 65:429-457, 2003. [ .pdf ]
[22]	A R Schutte, J P Spencer, and G Schöner. Testing the dynamic field theory: Working memory for locations becomes more spatially precise over development. Child Development, 74:1393-1417, 2003. [ .pdf ]
[23]	J P Spencer and G Schöner. Bridging the representational gap in the dynamical systems approach to development. Developmental Science, 6:392-412, 2003. [ .pdf ]
[24]	Y-W Tseng, J P Scholz, G Schöner, and L Hotchkiss. Effect of accuracy constraint on joint coordination during pointing movements. Experimental Brain Research, 2003. [ .pdf ]
[25]	W Erlhagen and G Schöner. Dynamic field theory of movement preparation. Psychological Review, 109:545-572, 2002. [ .pdf ]
[26]	K McDowell, J J Jeka, G Schöner, and B D Hatfield. Behavioural and electrocortical evidence of an interaction between probability and task metrics in movement preparation. Experimental Brain Research, 144:303-313, 2002. [ .pdf ]
[27]	Darcy S Reisman, John P Scholz, and Gregor Schöner. Coordination underlying the control of whole body momentum during sit-to-stand. Gait & Posture, 15(1):45-55, 2002. [ .pdf \| Abstract ]
[28]	J P Scholz, F Danion, M L Latash, and G Schöner. Understanding finger coordination through analysis of the structure of force variability. Biological Cybernetics, 86:29-39, 2002. [ .pdf ]
[29]	G Schöner. Timing, clocks, and dynamical systems. Brain and Cognition, 48:31-51, 2002. [ .pdf ]
[30]	G Schöner. Dynamical systems approaches to neural systems and behavior. In N J Smelser and P B Baltes, editors, International Encyclopedia of the Social & Behavioral Sciences, pages 10571-10575, Oxford, 2002. Pergamon. [ .pdf ]
[31]	E Thelen, G Schöner, C Scheier, and L Smith. The dynamics of embodiment: A field theory of infant perseverative reaching. Brain and Behavioral Sciences, 24:1-33, 2001. [ .pdf ]
[32]	J P Scholz, G Schöner, and M L Latash. Identifying the control structure of multijoint coordination during pistol shooting. Experimental Brain Research, 135:382-404, 2000. [ .pdf ]
[33]	W Erlhagen, A Bastian, D Jancke, A Riehle, and G Schöner. The distribution of neuronal population activation (DPA) as a tool to study interaction and integration in cortical representations. Journal of Neuroscience Methods, 94:53-66, 1999. [ .pdf ]
[34]	D Jancke, W Erlhagen, H R Dinse, A C Akhavan, M Giese, A Steinhage, and G Schöner. Parametric population representation of retinal location: Neuronal interaction dynamics in cat primary visual cortex. Journal of Neuroscience, 19:9016-9028, 1999. [ .pdf ]
[35]	J P Scholz and G Schöner. The uncontrolled manifold concept: Identifying control variables for a functional task. Experimental Brain Researc, 126:289-306, 1999. [ .pdf ]
[36]	A Bastian, A Riehle, W Erlhagen, and G Schöner. Prior information preshapes the population representation of movement direction in motor cortex. Neuroreports, 9:315-319, 1998.
[37]	E Bicho, P Mallet, and G Schöner. Using attractor dynamics to control autonomous vehicle motion. In Proceedings of IECON´98, pages 1176-1181. IEEE Industrial Electronics Society, 1998.
[38]	J Jeka, K Oie, G Schöner, T M H Dijkstra, and E Henson. Position and velocity coupling of postural sway to somatosensory drive. Journal of Neurophysiology, 79:1661-1674, 1998.
[39]	G Schöner, T M H Dijkstra, and J J Jeka. Action-perception patterns emerge from coupling and adaptation. Ecological Psychology, 10:323-346, 1998.
[40]	J P Spencer and G Schöner. A dynamic neural field theory of location memory. Abstracts Society for Neuroscience, 24:65.1, 1998.
[41]	H S Hock, G Schöner, and A Voss. Adapation and spontaneous perceptual changes for bistable stimuli. Perception & Psychophysics, 59:509-522, 1997. [ .pdf ]
[42]	J J Jeka, G Schöner, T Dijkstra, P Ribeiro, and J R Lackner. Coupling of fingertip somatosensory information to body sway during stance. Experimental Brain Research, 113:475-483, 1997. [ .pdf ]
[43]	G Schöner, K Kopecz, and W Erlhagen. The dynamic neural field theory of motor programming: Arm and eye movements. In P G Morasso and V Sanguineti, editors, Self-Organization, Computational Maps and Motor Control, Psychology Series, Vol. 119, pages 271-310. Elsevier-North Holland, 1997. [ .pdf ]
[44]	A Bastian, A Riehle, G Schöner, and J Requin. Directional tuning of motor cortical neurons depends on prior information about the upcoming movement. In Göttingen Neurobiology Report 1996, page 467. Georg Thieme Verlag Stuttgart-New York, 1996.
[45]	E Bicho and G Schöner. The dynamic approach to autonomous robotics demonstrated on a low-level vehicle platform. In SIRS´96: 4th International Symposium on Intelligent Robotic Systems, Lisbon, 1996, 1996.
[46]	M Giese, T M H Dijkstra, G Schöner, and C C A M Gielen. Identification of the nonlinear state space dynamics of the action-perception cycle for visually induced postural sway. Biological Cybernetics, 74:427-437, 1996.
[47]	H S Hock, G Schöner, and S Hochstein. Perceptual stability and the selective adaptation of perceived and unperceived motion directions. Vision Research, 36:3311-3323, 1996.
[48]	D Jancke, A C Akhavan, W Erlhagen, M A Giese, A Steinhage, G Schöner, and H R Dinse. Population coding in cat visual cortex reveals nonlinear interactions as predicted by a neural field model. In C von der Malsburg, W von Seelen, J C Vorbrüggen, and B Sendhoff, editors, Artificial neural networks - ICANN 96, pages 641-648. Springer, Berlin, 1996.
[49]	E Bicho, G Schöner, and F Vaz. Modelo dinâmico neuronal para a percepçao categorial da fala. Telecomunicaçoes (Portugal), 1:263-277, 1995.
[50]	M A Giese, A C Akhavan, W Erlhagen, D Jancke, A Steinhage, H R Dinse, and G Schöner. Optimal population codes for a functional analysis of visual cortex dynamics. Society for Neuroscience 1995 Abstracts, 21:649.7, 1995.
[51]	M A Giese, W Erlhagen, A C Akhavan, D Jancke, A Steinhage, H R Dinse, and Schöner G. Receptive field based population codes and their limitations in presence of cooperativity. In N Elsner and R Menzel, editors, Göttingen Neurobiology Report 1995, page 465. Thieme Verlag, Stuttgart, 1995.
[52]	K Kopecz and G Schöner. Saccadic motor planning by integrating visual information and pre-information on neural, dynamic fields. Biological Cybernetics, 73:49-60, 1995.
[53]	K Kopecz, G Schöner, and W Erlhagen. Dynamic representations provide the gradual specification of movement parameters. In B Kappen and S Gielen, editors, Neural Networks: Artificial Intelligence and industrial applications, pages 29-32. Springer Verlag, 1995.
[54]	G Schöner. Recent developments and problems in human movement science and their conceptual implications. Ecological Psychology, 7:291-314, 1995.
[55]	G Schöner and H S Hock. Concepts for a dynamic theory of perceptual organization: An example from apparent movement. In P Kruse and M Stadler, editors, Ambiguity in Mind and Nature, pages 275-310, Berlin, 1995. Springer Verlag.
[56]	T Dijkstra, G Schöner, M Giese, and C Gielen. Frequency dependence of the action-perception cycle for postural control in a moving visual environment: relative phase dynamics. Biological Cybernetics, 71:489-501, 1994.
[57]	T Dijkstra, G Schöner, and C Gielen. Temporal stability of the action-perception cycle for postural control in a moving visual environment. Experimental Brain Research, 97:477-486, 1994.
[58]	C. Engels and G. Schöner. Dynamic neural field architecture for the design of autonomous systems. In E Köhler, editor, 39. Internationales Wissenschaftliches Kolloquium, pages 47-52. Technische Universität Ilmenau, 1994.
[59]	G Schöner. Dynamic theory of action-perception patterns: The time-before-contact paradigm. Human Movement Science, 3:415-439, 1994.
[60]	G Schöner. From interlimb coordination to trajectory formation: common dynamical principles. In S Swinnen, H Heuer, J Massion, and P Casaer, editors, Interlimb coordination: neural, dynamical, and cognitive constraints, pages 339-368. Academic Press, San Diego, 1994.
[61]	H S Hock, G Schöner, G Balz, K Eastman, and A A Voss. Dynamic concepts in visual pattern formation. In B J West, editor, Patterns, Information, and Chaos in Neuronal Systems, Studies on Nonlinear Phenomena in Life Sciences, Vol. 2, pages 43-72. World Scientific, Singapore, 1993.
[62]	H S Hock, J A S Kelso, and G Schöner. Perceptual stability in the perceptual organization of apparent motion patterns. Journal of Experimental Psychology: Human Perception and Performance, 19:63-80, 1993.
[63]	J A S Kelso, M Ding, and Schöner G. Dynamic pattern formation: A tutorial. In Smith L B and Thelen E, editors, A dynamic systems approach to Developement: Applications, pages 13-50. The MIT Press, Boston, 1993.
[64]	K Kopecz, C Engels, and G Schöner. Dynamic field approach to target selection in gaze control. In S Gielen and B Kappen, editors, International Conference on Artificial Neural Networks, Amsterdam, pages 96-101. Springer Verlag, Berlin, 1993.
[65]	K Kopecz, G Schöner, H R Dinse, and F Spengler. Dynamic properties of cortical, evoked (10 hz) oscillations. theory and experiment. Biological Cybernetics, 69:463-473, 1993.
[66]	J A S Kelso, M Ding, and G Schöner. Dynamic pattern formation: A primer. In J E Mittenthal and A B Baskin, editors, Principles of Organization in Organisms, pages 397-439. SFI Studies in the Sciences of Complexity, Proc. Vol. XIII, Addison-Wesley Publ. Co., Reading MA, 1992.
[67]	S Kopecz, K Kopecz, J Krüger, M Wolf, I Porada, G Schöner, and HR Dinse. Properties of 5 hz oscillations in visual cortex of awake rabbits. In N Elsner and DD Richter, editors, Rhythmogenesis in neurons and networks, page 344. Thieme, 1992.
[68]	G Schöner and S L Castro. Ciência da fala e sinergética. Revista da Psicologia, 3/4:49-55, 1992.
[69]	G Schöner, K Kopecz, F Spengler, and H Dinse. Evoked oscillatory cortical responses are dynamically coupled to peripheral stimuli. Neuroreports, 3:579-582, 1992.
[70]	G Schöner, P G Zanone, and J A S Kelso. Learning as change of coordination dynamics: Theory and experiment. Journal of Motor Behavior, 24:29-48, 1992.
[71]	M Silva, A Steinhage, U Müller, and G Schöner. Inter-leg coordination in the walking crayfish: Dynamic theory and experiment. In D Richter and N Elsner, editors, Rhythmogenesis in neurons and networks, page 166. Thieme Verlag, Stuttgart, 1992.
[72]	K Kopecz, G Schöner, H R Dinse, and F Spengler. Dynamic properties of neural response-new theoretical methods for understanding temporal structure. In N Elsner and H Penzlin, editors, Synapse-Transmission-Modulation, page 284. Georg Thieme Verlag Stuttgart, 1991.
[73]	G Schöner. Dynamic theory of action-perception patterns: the “moving room” paradigm. Biological Cybernetics, 64:455-462, 1991.
[74]	F Spengler, K Kopecz, H R Dinse, and G Schöner. Temporal transfer characteristics are affected by a low-frequency oscillatory temporal structure in rat somatosensory cortex. In N Elsner and H Penzlin, editors, Synapse-Transmission-Modulation, page 283. Georg Thieme Verlag Stuttgart, 1991.
[75]	J A S Kelso, J D Delcolle, and G Schöner. Action-perception as a pattern formation process. In M Jeannerod, editor, Attention and Performance, pages 139-169. L Erlbaum Assoc, Hillsdale NJ, 1990.
[76]	G Schöner. A dynamic theory of coordination of discrete movement. Biological Cybernetics, 63:257-270, 1990.
[77]	G Schöner, W J Jiang, and J A S Kelso. A synergetic theory of quadrupedal gaits and gait transitions. Journal of Theoretical Biology, 142:359-391, 1990.
[78]	G Schöner. Learning and recall in a dynamic theory of coordination patterns. Biological Cybernetics, 62:39-54, 1989.
[79]	J A S Kelso and G Schöner. Self-organization of coordinative movement patterns. Human Movement Science, 7:27-46, 1988.
[80]	J A S Kelso, J P Scholz, and G Schöner. Dynamics governs switching among patterns of coordination in biological movement. Physics Letters, A134:8-12, 1988.
[81]	G Schöner and J A S Kelso. Dynamic pattern generation in behavioral and neural systems. Science, 239:1513-1520, 1988.
[82]	G Schöner and J A S Kelso. Synergetic theory of environmentally-specified and learned patterns of movement coordination: I. relative phase dynamics. Biological Cybernetics, 58:71-80, 1988.
[83]	G Schöner and J A S Kelso. Synergetic theory of environmentally-specified and learned patterns of movement coordination. Biological Cybernetics, 58:71-89, 1988.
[84]	G Schöner and J A S Kelso. Synergetic theory of environmentally-specified and learned patterns of movement coordination. ii. component oscillator dynamics. Biological Cybernetics, 58:81-89, 1988.
[85]	G Schöner and J A S Kelso. A dynamic theory of behavioral change. Journal of Theoretical Biology, 135:501-524, 1988.
[86]	G Schöner and J A S Kelso. Dynamic patterns of biological coordination: theoretical strategy and new results. In J A S Kelso, A Mandell, and M F Shlesinger, editors, Dynamic patterns in complex systems, pages 77-102. World Scientific, Singapore, 1988.
[87]	J P Scholz, J A S Kelso, and G Schöner. Dynamics governs switching among patterns of coordinations in biological movement. Physics Letters, A134:8-12, 1988.
[88]	J A S Kelso and G Schöner. Toward a physical (synergetic) theory of biological coordination. Springer Proceedings in Physics, 19:224-237, 1987.
[89]	J A S Kelso, G Schöner, J P Scholz, and H Haken. Phase-locked modes, phase transitions and component oscillators in biological motion. Physica Scripta, 35:79-87, 1987.
[90]	J P Scholz, J A S Kelso, and G Schöner. Nonequilibrium phase transitions in coordinated biological motion: critical slowing down and switching time. Physics Letters, A123:390-394, 1987.
[91]	J A S Kelso, J P Scholz, and G Schöner. Nonequilibirum phase transitions in coordinated biological motion: critical fluctuations. Physics Letters, A118:279-284, 1986.
[92]	G Schöner, H Haken, and J A S Kelso. A stochastic theory of phase transitions in human hand movement. Biological Cybernetics, 53:247-257, 1986.
[93]	G Schöner. What can we learn from dynamic models of rhythmic behavior in animals and humans? ZIF reports on pre-rational intelligence, in press.