Prof. Dr. Gregor Schöner

RUB
Computer Science
INI
People
Prof. Dr. Gregor Schöner

gregor.schoener@ini.rub.de (+49) 234-32-27965

Theory of Cognitive Systems

Autonomous Robotics, Theory of Embodied Cognition

Ruhr-Universität Bochum
Institut für Neuroinformatik
Universitätsstraße 150
Building NB, Room NB 3/31

D-44801 Bochum, Germany

I would like to understand how embodied and situated nervous systems develop cognition. To do that, my colleagues and I have developed the theoretical framework of Dynamical Field Theory. In a set of close theory-experiment collaborations we validate the concept of the theory and systematically build an account of action, perception, and embodied cognition. Exemplary studies include multi-degree of freedom movements, learning of motor skills, perception of motion, working memory for action, space and visual features, sensory-motor decision making and the development of early cognition and motor behavior. In a second line of research we develop of autonomous robots inspired by these same theoretical principles. The main emphasis is on service robotics, in which autonomous robots interact with human users.

I work toward that vision as a researcher, as group leader, and collaborator. I also teach as a professor, and am the director of the Institute, and have all kinds of other obligations like editorships, writing letters for students, and reviewing grants. As a result of such multi-tasking, I struggle to keep up with email. So please don't hesitate to remind me if I am slow to respond and do send me an email a second or third time if the response is long in coming. Thank you for your understanding.

Selected Publications

2019

The Dynamics of Neural Populations Capture the Laws of the Mind
Schöner, G.
Topics in Cognitive Science, 1–15

reprint

@article{Schöner2019, author = {Schöner, Gregor}, title = {The Dynamics of Neural Populations Capture the Laws of the Mind}, journal = {Topics in Cognitive Science}, pages = {1–15}, year = {2019}, doi = {10.1111/tops.12453}, }

Schöner, G. (2019). The Dynamics of Neural Populations Capture the Laws of the Mind. Topics in Cognitive Science, 1–15. http://doi.org/10.1111/tops.12453

2024

Neural Dynamic Principles for an Intentional Embodied Agent

Tekülve, J., & Schöner, G.

Cognitive Science, 48(9)

@article{TekülveSchöner2024,
	author		=	{Tekülve, Jan and Schöner, Gregor},
	title		=	{Neural Dynamic Principles for an Intentional Embodied Agent},
	journal		=	{Cognitive Science},
	volume		=	{48},
	number		=	{9},
	month		=	{September},
	year		=	{2024},
	doi		=	{10.1111/cogs.13491},
}

Inverting a model of neuromuscular control to estimate descending activation patterns that generate fast-reaching movements
Hummert, C., Zhang, L., & Schöner, G.
Journal of Neurophysiology, 131(6), 1271–1285

reprint

@article{HummertZhangSchöner2024, author = {Hummert, Cora and Zhang, Lei and Schöner, Gregor}, title = {Inverting a model of neuromuscular control to estimate descending activation patterns that generate fast-reaching movements}, journal = {Journal of Neurophysiology}, volume = {131}, number = {6}, pages = {1271–1285}, month = {June}, year = {2024}, doi = {10.1152/jn.00179.2023}, }

Hummert, C., Zhang, L., & Schöner, G.. (2024). Inverting a model of neuromuscular control to estimate descending activation patterns that generate fast-reaching movements. Journal of Neurophysiology, 131(6), 1271–1285. http://doi.org/10.1152/jn.00179.2023
ROBOVERINE: A human-inspired neural robotic process model of active visual search and scene grammar in naturalistic environments
Grieben, R., Sehring, S., Tekülve, J., Spencer, J. P., & Schöner, G.
In 2024 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS) IEEE

Preprint

@inproceedings{GriebenSehringTekülveEtAl2024, author = {Grieben, Raul and Sehring, Stephan and Tekülve, Jan and Spencer, John P. and Schöner, Gregor}, title = {ROBOVERINE: A human-inspired neural robotic process model of active visual search and scene grammar in naturalistic environments}, booktitle = {2024 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)}, organization = {IEEE}, year = {2024}, }

Grieben, R., Sehring, S., Tekülve, J., Spencer, J. P., & Schöner, G.. (2024). ROBOVERINE: A human-inspired neural robotic process model of active visual search and scene grammar in naturalistic environments. In 2024 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS). IEEE.
Visual selective attention: Priority is all you need
Grieben, R., Spencer, J. P., & Schöner, G.
In L. K. Samuelson, Frank, S. L., Toneva, M., Mackey, A., & Hazeltine, E. (Eds.), Proceedings of the 46th Annual Conference of the Cognitive Science Society

@inproceedings{GriebenSpencerSchöner2024, author = {Grieben, Raul and Spencer, John P. and Schöner, Gregor}, title = {Visual selective attention: Priority is all you need}, booktitle = {Proceedings of the 46th Annual Conference of the Cognitive Science Society}, editor = {Samuelson, L. K. and Frank, S. L. and Toneva, M. and Mackey, A. and Hazeltine, E.}, year = {2024}, }

Grieben, R., Spencer, J. P., & Schöner, G.. (2024). Visual selective attention: Priority is all you need. In L. K. Samuelson, Frank, S. L., Toneva, M., Mackey, A., & Hazeltine, E. (Eds.), Proceedings of the 46th Annual Conference of the Cognitive Science Society.
A Neural Process Model of Structure Mapping Accounts for Children’s Development of Analogical Mapping by Change in Inhibitory Control
Kang, M., Sabinasz, D., & Schöner, G.
In L. K. Samuelson, Frank, S. L., Toneva, M., Mackey, A., & Hazeltine, E. (Eds.), Proceedings of the 46th Annual Conference of the Cognitive Science Society

pdf

@inproceedings{KangSabinaszSchöner2024, author = {Kang, Minseok and Sabinasz, Daniel and Schöner, Gregor}, title = {A Neural Process Model of Structure Mapping Accounts for Children’s Development of Analogical Mapping by Change in Inhibitory Control}, booktitle = {Proceedings of the 46th Annual Conference of the Cognitive Science Society}, editor = {Samuelson, L. K. and Frank, S. L. and Toneva, M. and Mackey, A. and Hazeltine, E.}, year = {2024}, }

Kang, M., Sabinasz, D., & Schöner, G.. (2024). A Neural Process Model of Structure Mapping Accounts for Children’s Development of Analogical Mapping by Change in Inhibitory Control. In L. K. Samuelson, Frank, S. L., Toneva, M., Mackey, A., & Hazeltine, E. (Eds.), Proceedings of the 46th Annual Conference of the Cognitive Science Society.
Interaction of polarity and truth value - A neural dynamic architecture of negation processing
Kati, L., Sabinasz, D., Schöner, G., & Kaup, B.
In L. K. Samuelson, Frank, S. L., Toneva, M., Mackey, A., & Hazeltine, E. (Eds.), Proceedings of the 46th Annual Conference of the Cognitive Science Society

Paper

@inproceedings{KatiSabinaszSchönerEtAl2024, author = {Kati, Lea and Sabinasz, Daniel and Schöner, Gregor and Kaup, Barbara}, title = {Interaction of polarity and truth value - A neural dynamic architecture of negation processing}, booktitle = {Proceedings of the 46th Annual Conference of the Cognitive Science Society}, editor = {Samuelson, L. K. and Frank, S. L. and Toneva, M. and Mackey, A. and Hazeltine, E.}, year = {2024}, }

Kati, L., Sabinasz, D., Schöner, G., & Kaup, B. (2024). Interaction of polarity and truth value - A neural dynamic architecture of negation processing. In L. K. Samuelson, Frank, S. L., Toneva, M., Mackey, A., & Hazeltine, E. (Eds.), Proceedings of the 46th Annual Conference of the Cognitive Science Society.
A Neural Dynamic Model Autonomously Drives a Robot to Perform Structured Sequences of Action Intentions
Sehring, S., Koebe, R., Aerdker, S., & Schöner, G.
In L. K. Samuelson, Frank, S. L., Toneva, M., Mackey, A., & Hazeltine, E. (Eds.), Proceedings of the 46th Annual Conference of the CognitiveScience Society

A Neural Dynamic Model Autonomously Drives a Robot to Perform Structured Sequences of Action Intentions

@inproceedings{SehringKoebeAerdkerEtAl2024, author = {Sehring, Stephan and Koebe, Richard and Aerdker, Sophie and Schöner, Gregor}, title = {A Neural Dynamic Model Autonomously Drives a Robot to Perform Structured Sequences of Action Intentions}, booktitle = {Proceedings of the 46th Annual Conference of the CognitiveScience Society}, editor = {Samuelson, L. K. and Frank, S. L. and Toneva, M. and Mackey, A. and Hazeltine, E.}, year = {2024}, }

Sehring, S., Koebe, R., Aerdker, S., & Schöner, G.. (2024). A Neural Dynamic Model Autonomously Drives a Robot to Perform Structured Sequences of Action Intentions. In L. K. Samuelson, Frank, S. L., Toneva, M., Mackey, A., & Hazeltine, E. (Eds.), Proceedings of the 46th Annual Conference of the CognitiveScience Society.

2023

Neural dynamic foundations of a theory of higher cognition: the case of grounding nested phrases
Sabinasz, D., Richter, M., & Schöner, G.
Cognitive Neurodynamics

reprint

@article{SabinaszRichterSchöner2023, author = {Sabinasz, Daniel and Richter, Mathis and Schöner, Gregor}, title = {Neural dynamic foundations of a theory of higher cognition: the case of grounding nested phrases}, journal = {Cognitive Neurodynamics}, month = {October}, year = {2023}, doi = {10.1007/s11571-023-10007-7}, }

Sabinasz, D., Richter, M., & Schöner, G.. (2023). Neural dynamic foundations of a theory of higher cognition: the case of grounding nested phrases. Cognitive Neurodynamics. http://doi.org/10.1007/s11571-023-10007-7
The stabilization of visibility for sequentially presented, low-contrast objects: Experiments and neural field model
Hock, H. S., & Schöner, G.
Journal of Vision, 23(8), 12–12

reprint

@article{HockSchöner2023, author = {Hock, Howard S. and Schöner, Gregor}, title = {The stabilization of visibility for sequentially presented, low-contrast objects: Experiments and neural field model}, journal = {Journal of Vision}, volume = {23}, number = {8}, pages = {12–12}, month = {August}, year = {2023}, doi = {10.1167/jov.23.8.12}, }

Hock, H. S., & Schöner, G.. (2023). The stabilization of visibility for sequentially presented, low-contrast objects: Experiments and neural field model. Journal of Vision, 23(8), 12–12. http://doi.org/10.1167/jov.23.8.12

2022

A Neural Dynamic Model Perceptually Grounds Nested Noun Phrases
Sabinasz, D., & Schöner, G.
Topics in Cognitive Science

A Neural Dynamic Model Perceptually Grounds Nested Noun Phrases

@article{SabinaszSchöner2022b, author = {Sabinasz, Daniel and Schöner, Gregor}, title = {A Neural Dynamic Model Perceptually Grounds Nested Noun Phrases}, journal = {Topics in Cognitive Science}, month = {October}, year = {2022}, doi = {10.1111/tops.12630}, }

Sabinasz, D., & Schöner, G.. (2022). A Neural Dynamic Model Perceptually Grounds Nested Noun Phrases. Topics in Cognitive Science. http://doi.org/10.1111/tops.12630
Bridging DFT and DNNs: A neural dynamic process model of scene representation, guided visual search and scene grammar in natural scenes
Grieben, R., & Schöner, G.
In J. Culbertson, Perfors, A., Rabagliati, H., & Ramenzoni, V. (Eds.), Proceedings of the 44th Annual Conference of the Cognitive Science Society

preprint

@inproceedings{GriebenSchöner2022, author = {Grieben, Raul and Schöner, Gregor}, title = {Bridging DFT and DNNs: A neural dynamic process model of scene representation, guided visual search and scene grammar in natural scenes}, booktitle = {Proceedings of the 44th Annual Conference of the Cognitive Science Society}, editor = {Culbertson, Jennifer and Perfors, Andrew and Rabagliati, Hugh and Ramenzoni, Veronica}, year = {2022}, }

Grieben, R., & Schöner, G.. (2022). Bridging DFT and DNNs: A neural dynamic process model of scene representation, guided visual search and scene grammar in natural scenes. In J. Culbertson, Perfors, A., Rabagliati, H., & Ramenzoni, V. (Eds.), Proceedings of the 44th Annual Conference of the Cognitive Science Society.
A Perceptually Grounded Neural Dynamic Architecture Establishes Analogy Between Visual Object Pairs
Hesse, M., Sabinasz, D., & Schöner, G.
In J. Culbertson, Perfors, A., Rabagliati, H., & Ramenzoni, V. (Eds.), Proceedings of the 44th Annual Conference of the Cognitive Science Society

A Perceptually Grounded Neural Dynamic Architecture Establishes Analogy Between Visual Object Pairs

@inproceedings{HesseSabinaszSchöner2022, author = {Hesse, Matthis and Sabinasz, Daniel and Schöner, Gregor}, title = {A Perceptually Grounded Neural Dynamic Architecture Establishes Analogy Between Visual Object Pairs}, booktitle = {Proceedings of the 44th Annual Conference of the Cognitive Science Society}, editor = {Culbertson, Jennifer and Perfors, Andrew and Rabagliati, Hugh and Ramenzoni, Veronica}, year = {2022}, }

Hesse, M., Sabinasz, D., & Schöner, G.. (2022). A Perceptually Grounded Neural Dynamic Architecture Establishes Analogy Between Visual Object Pairs. In J. Culbertson, Perfors, A., Rabagliati, H., & Ramenzoni, V. (Eds.), Proceedings of the 44th Annual Conference of the Cognitive Science Society.
A Neural Dynamic Model Perceptually Grounds Nested Noun Phrases
Sabinasz, D., & Schöner, G.
In J. Culbertson, Perfors, A., Rabagliati, H., & Ramenzoni, V. (Eds.), Proceedings of the 44th Annual Conference of the Cognitive Science Society

A Neural Dynamic Model Perceptually Grounds Nested Noun Phrases

@inproceedings{SabinaszSchöner2022, author = {Sabinasz, Daniel and Schöner, Gregor}, title = {A Neural Dynamic Model Perceptually Grounds Nested Noun Phrases}, booktitle = {Proceedings of the 44th Annual Conference of the Cognitive Science Society}, editor = {Culbertson, Jennifer and Perfors, Andrew and Rabagliati, Hugh and Ramenzoni, Veronica}, year = {2022}, }

Sabinasz, D., & Schöner, G.. (2022). A Neural Dynamic Model Perceptually Grounds Nested Noun Phrases. In J. Culbertson, Perfors, A., Rabagliati, H., & Ramenzoni, V. (Eds.), Proceedings of the 44th Annual Conference of the Cognitive Science Society.

2021

How do neural processes give rise to cognition? Simultaneously predicting brain and behavior with a dynamic model of visual working memory.
Buss, A. T., Magnotta, V. A., Penny, W., Schöner, G., Huppert, T. J., & Spencer, J. P.
Psychological Review, 128(2), 362–395

preprint

@article{BussMagnottaPennyEtAl2021, author = {Buss, Aaron T and Magnotta, Vincent A. and Penny, Will and Schöner, Gregor and Huppert, Theodore J. and Spencer, John P}, title = {How do neural processes give rise to cognition? Simultaneously predicting brain and behavior with a dynamic model of visual working memory.}, journal = {Psychological Review}, volume = {128}, number = {2}, pages = {362–395}, month = {March}, year = {2021}, doi = {10.1037/rev0000264}, }

Buss, A. T., Magnotta, V. A., Penny, W., Schöner, G., Huppert, T. J., & Spencer, J. P. (2021). How do neural processes give rise to cognition? Simultaneously predicting brain and behavior with a dynamic model of visual working memory. Psychological Review, 128(2), 362–395. http://doi.org/10.1037/rev0000264
A neural dynamic process model of combined bottom-up and top-down guidance in triple conjunction visual search
Grieben, R., & Schöner, G.
In T. Fitch, Lamm, C., Leder, H., & Teßmar-Raible, K. (Eds.), Proceedings of the 43rd Annual Conference of the Cognitive Science Society

preprint

@inproceedings{GriebenSchöner2021, author = {Grieben, Raul and Schöner, Gregor}, title = {A neural dynamic process model of combined bottom-up and top-down guidance in triple conjunction visual search}, booktitle = {Proceedings of the 43rd Annual Conference of the Cognitive Science Society}, editor = {Fitch, Tecumseh and Lamm, Claus and Leder, Helmut and Teßmar-Raible, Kristin}, year = {2021}, }

Grieben, R., & Schöner, G.. (2021). A neural dynamic process model of combined bottom-up and top-down guidance in triple conjunction visual search. In T. Fitch, Lamm, C., Leder, H., & Teßmar-Raible, K. (Eds.), Proceedings of the 43rd Annual Conference of the Cognitive Science Society.
A Neural Dynamic Model of the Perceptual Grounding of Spatial and Movement Relations
Richter, M., Lins, J., & Schöner, G.
Cognitive Science, 45(10), e13045

Paper (open publication) Link to Journal

@article{RichterLinsSchöner2021, author = {Richter, Mathis and Lins, Jonas and Schöner, Gregor}, title = {A Neural Dynamic Model of the Perceptual Grounding of Spatial and Movement Relations}, journal = {Cognitive Science}, volume = {45}, number = {10}, pages = {e13045}, year = {2021}, doi = {https://doi.org/10.1111/cogs.13045}, }

Richter, M., Lins, J., & Schöner, G.. (2021). A Neural Dynamic Model of the Perceptual Grounding of Spatial and Movement Relations. Cognitive Science, 45(10), e13045. http://doi.org/https://doi.org/10.1111/cogs.13045

2020

Motor Habituation: Theory and Experiment
Aerdker, S., Feng, J., & Schöner, G.
10th Joint IEEE International Conference on Development and Learning and Epigenetic Robotics (ICDL-EpiRob 2020) pp. 160-167

Motor Habituation: Theory and Experiment (pdf)

@article{AerdkerFengSchöner2020, author = {Aerdker, S. and Feng, J. and Schöner, G.}, title = {Motor Habituation: Theory and Experiment}, journal = {10th Joint IEEE International Conference on Development and Learning and Epigenetic Robotics (ICDL-EpiRob 2020) pp. 160-167}, year = {2020}, }

Aerdker, S., Feng, J., & Schöner, G.. (2020). Motor Habituation: Theory and Experiment. 10th Joint IEEE International Conference on Development and Learning and Epigenetic Robotics (ICDL-EpiRob 2020) pp. 160-167.
Scene memory and spatial inhibition in visual search: A neural dynamic process model and new experimental evidence
Grieben, R., Tekülve, J., Zibner, S. K. U., Lins, J., Schneegans, S., & Schöner, G.
Attention, Perception, & Psychophysics

SpringerLink (Open Access)

@article{GriebenTekülveZibnerEtAl2020, author = {Grieben, Raul and Tekülve, Jan and Zibner, Stephan K.U. and Lins, Jonas and Schneegans, Sebastian and Schöner, Gregor}, title = {Scene memory and spatial inhibition in visual search: A neural dynamic process model and new experimental evidence}, journal = {Attention, Perception, & Psychophysics}, year = {2020}, doi = {10.3758/s13414-019-01898-y}, }

Grieben, R., Tekülve, J., Zibner, S. K. U., Lins, J., Schneegans, S., & Schöner, G.. (2020). Scene memory and spatial inhibition in visual search: A neural dynamic process model and new experimental evidence. Attention, Perception, & Psychophysics. http://doi.org/10.3758/s13414-019-01898-y
Grounding Spatial Language in Perception by Combining Concepts in a Neural Dynamic Architecture
Sabinasz, D., Richter, M., Lins, J., & Schöner, G.
In S. Denison, Mack, M., Xu, Y., & Armstrong, B. C. (Eds.), Proceedings of the 42nd Annual Conference of the Cognitive Science Society (pp. 620–626) Cognitive Science Society

pdf

@inproceedings{SabinaszRichterLinsEtAl2020, author = {Sabinasz, Daniel and Richter, Mathis and Lins, Jonas and Schöner, Gregor}, title = {Grounding Spatial Language in Perception by Combining Concepts in a Neural Dynamic Architecture}, booktitle = {Proceedings of the 42nd Annual Conference of the Cognitive Science Society}, editor = {Denison, Stephanie and Mack, Michael and Xu, Yang and Armstrong, Blair C}, pages = {620–626}, publisher = {Cognitive Science Society}, year = {2020}, }

Sabinasz, D., Richter, M., Lins, J., & Schöner, G.. (2020). Grounding Spatial Language in Perception by Combining Concepts in a Neural Dynamic Architecture. In S. Denison, Mack, M., Xu, Y., & Armstrong, B. C. (Eds.), Proceedings of the 42nd Annual Conference of the Cognitive Science Society (pp. 620–626). Cognitive Science Society.

2019

Computer mouse tracking reveals motor signatures in a cognitive task of spatial language grounding
Lins, J., & Schöner, G.
Attention, Perception, & Psychophysics

pdf

@article{LinsSchöner2019, author = {Lins, Jonas and Schöner, Gregor}, title = {Computer mouse tracking reveals motor signatures in a cognitive task of spatial language grounding}, journal = {Attention, Perception, & Psychophysics}, month = {September}, year = {2019}, doi = {10.3758/s13414-019-01847-9}, }

Lins, J., & Schöner, G.. (2019). Computer mouse tracking reveals motor signatures in a cognitive task of spatial language grounding. Attention, Perception, & Psychophysics. http://doi.org/10.3758/s13414-019-01847-9
A process account of the UnControlled Manifold uncontrolled manifold structure of joint space variance in pointing movements
Martin, V., Reimann, H., & Schöner, G.
Biological Cybernetics

reprint

@article{MartinReimannSchöner2019, author = {Martin, Valère and Reimann, Hendrik and Schöner, Gregor}, title = {A process account of the UnControlled Manifold uncontrolled manifold structure of joint space variance in pointing movements}, journal = {Biological Cybernetics}, year = {2019}, }

Martin, V., Reimann, H., & Schöner, G.. (2019). A process account of the UnControlled Manifold uncontrolled manifold structure of joint space variance in pointing movements. Biological Cybernetics.
The Dynamics of Neural Populations Capture the Laws of the Mind
Schöner, G.
Topics in Cognitive Science, 1–15

reprint

@article{Schöner2019, author = {Schöner, Gregor}, title = {The Dynamics of Neural Populations Capture the Laws of the Mind}, journal = {Topics in Cognitive Science}, pages = {1–15}, year = {2019}, doi = {10.1111/tops.12453}, }

Schöner, G. (2019). The Dynamics of Neural Populations Capture the Laws of the Mind. Topics in Cognitive Science, 1–15. http://doi.org/10.1111/tops.12453
Autonomous Sequence Generation for a Neural Dynamic Robot: Scene Perception, Serial Order, and Object-Oriented Movement
Tekülve, J., Fois, A., Sandamirskaya, Y., & Schöner, G.
Frontiers in Neurorobotics, 13, 95

Article

@article{TekülveFoisSandamirskayaEtAl2019, author = {Tekülve, Jan and Fois, Adrien and Sandamirskaya, Yulia and Schöner, Gregor}, title = {Autonomous Sequence Generation for a Neural Dynamic Robot: Scene Perception, Serial Order, and Object-Oriented Movement}, journal = {Frontiers in Neurorobotics}, volume = {13}, pages = {95}, year = {2019}, doi = {10.3389/fnbot.2019.00095}, }

Tekülve, J., Fois, A., Sandamirskaya, Y., & Schöner, G.. (2019). Autonomous Sequence Generation for a Neural Dynamic Robot: Scene Perception, Serial Order, and Object-Oriented Movement. Frontiers in Neurorobotics, 13, 95. http://doi.org/10.3389/fnbot.2019.00095
Neural dynamic concepts for intentional systems
Tekülve, J., & Schöner, G.
In 41th Annual Conference of the Cognitive Science Society (CogSci 2019)

Neural dynamic concepts for intentional systems (Preprint)

@inproceedings{TekülveSchöner2019, author = {Tekülve, Jan and Schöner, Gregor}, title = {Neural dynamic concepts for intentional systems}, booktitle = {41th Annual Conference of the Cognitive Science Society (CogSci 2019)}, year = {2019}, }

Tekülve, J., & Schöner, G.. (2019). Neural dynamic concepts for intentional systems. In 41th Annual Conference of the Cognitive Science Society (CogSci 2019).
Autonomously learning beliefs is facilitated by a neural dynamic network driving an intentional agent
Tekülve, J., & Schöner, G.
In Development and Learning and Epigenetic Robotics (ICDL-EpiRob), 2019 Joint IEEE International Conference on (pp. 143–150) IEEE

pdf cedar architecture files

@inproceedings{TekülveSchöner2019b, author = {Tekülve, Jan and Schöner, Gregor}, title = {Autonomously learning beliefs is facilitated by a neural dynamic network driving an intentional agent}, booktitle = {Development and Learning and Epigenetic Robotics (ICDL-EpiRob), 2019 Joint IEEE International Conference on}, pages = {143–150}, organization = {IEEE}, year = {2019}, }

Tekülve, J., & Schöner, G.. (2019). Autonomously learning beliefs is facilitated by a neural dynamic network driving an intentional agent. In Development and Learning and Epigenetic Robotics (ICDL-EpiRob), 2019 Joint IEEE International Conference on (pp. 143–150). IEEE.

2018

Sequences of discrete attentional shifts emerge from a neural dynamic architecture for conjunctive visual search that operates in continuous time
Grieben, R., Tekülve, J., Zibner, S. K. U., Schneegans, S., & Schöner, G.
In T. T. Rogers, Rau, M., Zhu, X., & Kalish, C. W. (Eds.), Proceedings of the 40th Annual Conference of the Cognitive Science Society

preprint

@inproceedings{GriebenTekülveZibnerEtAl2018, author = {Grieben, R and Tekülve, J. and Zibner, S.K.U. and Schneegans, S. and Schöner, G.}, title = {Sequences of discrete attentional shifts emerge from a neural dynamic architecture for conjunctive visual search that operates in continuous time}, booktitle = {Proceedings of the 40th Annual Conference of the Cognitive Science Society}, editor = {Rogers, T.T. and Rau, M. and Zhu, X. and Kalish, C. W.}, year = {2018}, }

Grieben, R., Tekülve, J., Zibner, S. K. U., Schneegans, S., & Schöner, G.. (2018). Sequences of discrete attentional shifts emerge from a neural dynamic architecture for conjunctive visual search that operates in continuous time. In T. T. Rogers, Rau, M., Zhu, X., & Kalish, C. W. (Eds.), Proceedings of the 40th Annual Conference of the Cognitive Science Society.
Anticipatory coarticulation in non-speeded arm movements can be motor-equivalent, carry-over coarticulation always is
Hansen, E., Grimme, B., Reimann, H., & Schöner, G.
Experimental Brain Research

reprint

@article{HansenGrimmeReimannEtAl2018, author = {Hansen, Eva and Grimme, Britta and Reimann, Hendrik and Schöner, Gregor}, title = {Anticipatory coarticulation in non-speeded arm movements can be motor-equivalent, carry-over coarticulation always is}, journal = {Experimental Brain Research}, year = {2018}, doi = {10.1007/s00221-018-5215-5}, }

Hansen, E., Grimme, B., Reimann, H., & Schöner, G.. (2018). Anticipatory coarticulation in non-speeded arm movements can be motor-equivalent, carry-over coarticulation always is. Experimental Brain Research. http://doi.org/10.1007/s00221-018-5215-5
Erste Ansätze zur automatischen Erkennung von Gruppenverhalten mithilfe des Computersehens
Horn, D., Houben, S., & Schöner, G.
In J. Reichertz & Keysers, V. (Eds.), Emotion. Eskalation. Gewalt. (pp. 130–147) Beltz Juventa

@incollection{HornHoubenSchöner2018, author = {Horn, Daniela and Houben, Sebastian and Schöner, Gregor}, title = {Erste Ansätze zur automatischen Erkennung von Gruppenverhalten mithilfe des Computersehens}, booktitle = {Emotion. Eskalation. Gewalt.}, editor = {Reichertz, Jo and Keysers, V.}, pages = {130–147}, publisher = {Beltz Juventa}, year = {2018}, }

Horn, D., Houben, S., & Schöner, G.. (2018). Erste Ansätze zur automatischen Erkennung von Gruppenverhalten mithilfe des Computersehens. In J. Reichertz & Keysers, V. (Eds.), Emotion. Eskalation. Gewalt. (pp. 130–147). Beltz Juventa.
A Neural Dynamic Architecture That Autonomously Builds Mental Models
Kounatidou, P., Richter, M., & Schöner, G.
In T. T. Rogers, Rau, M., Zhu, X., & Kalish, C. W. (Eds.), Proceedings of the 40th Annual Conference of the Cognitive Science Society (pp. 643–648)

preprint

@inproceedings{KounatidouRichterSchöner2018, author = {Kounatidou, P. and Richter, M. and Schöner, G.}, title = {A Neural Dynamic Architecture That Autonomously Builds Mental Models}, booktitle = {Proceedings of the 40th Annual Conference of the Cognitive Science Society}, editor = {Rogers, T.T. and Rau, M. and Zhu, X. and Kalish, C. W.}, pages = {643–648}, year = {2018}, }

Kounatidou, P., Richter, M., & Schöner, G.. (2018). A Neural Dynamic Architecture That Autonomously Builds Mental Models. In T. T. Rogers, Rau, M., Zhu, X., & Kalish, C. W. (Eds.), Proceedings of the 40th Annual Conference of the Cognitive Science Society (pp. 643–648).

2017

A Neural Dynamic Architecture for Reaching and Grasping Integrates Perception and Movement Generation and Enables On-Line Updating
Knips, G., Zibner, S. K. U., Reimann, H., & Schöner, G.
Frontiers in Neurorobotics, 11(March), 9:1–14

reprint

@article{KnipsZibnerReimannEtAl2017, author = {Knips, Guido and Zibner, Stephan K U and Reimann, Hendrik and Schöner, Gregor}, title = {A Neural Dynamic Architecture for Reaching and Grasping Integrates Perception and Movement Generation and Enables On-Line Updating}, journal = {Frontiers in Neurorobotics}, volume = {11}, number = {March}, pages = {9:1–14}, month = {March}, year = {2017}, doi = {10.3389/fnbot.2017.00009}, }

Knips, G., Zibner, S. K. U., Reimann, H., & Schöner, G.. (2017). A Neural Dynamic Architecture for Reaching and Grasping Integrates Perception and Movement Generation and Enables On-Line Updating. Frontiers in Neurorobotics, 11(March), 9:1–14. http://doi.org/10.3389/fnbot.2017.00009
Mouse Tracking Shows Attraction to Alternative Targets While Grounding Spatial Relations
Lins, J., & Schöner, G.
In Proceedings of the 39th Annual Conference of the Cognitive Science Society Austin, TX: Cognitive Science Society

@inproceedings{LinsSchöner2017, author = {Lins, Jonas and Schöner, Gregor}, title = {Mouse Tracking Shows Attraction to Alternative Targets While Grounding Spatial Relations}, booktitle = {Proceedings of the 39th Annual Conference of the Cognitive Science Society}, publisher = {Cognitive Science Society}, address = {Austin, TX}, year = {2017}, }

Lins, J., & Schöner, G.. (2017). Mouse Tracking Shows Attraction to Alternative Targets While Grounding Spatial Relations. In Proceedings of the 39th Annual Conference of the Cognitive Science Society. Austin, TX: Cognitive Science Society.
A Neural-Dynamic Architecture for Concurrent Estimation of Object Pose and Identity
Lomp, O., Faubel, C., & Schöner, G.
Frontiers in Neurorobotics, 11(April), 23

reprint

@article{LompFaubelSchöner2017, author = {Lomp, Oliver and Faubel, Christian and Schöner, Gregor}, title = {A Neural-Dynamic Architecture for Concurrent Estimation of Object Pose and Identity}, journal = {Frontiers in Neurorobotics}, volume = {11}, number = {April}, pages = {23}, year = {2017}, doi = {10.3389/fnbot.2017.00023}, }

Lomp, O., Faubel, C., & Schöner, G.. (2017). A Neural-Dynamic Architecture for Concurrent Estimation of Object Pose and Identity. Frontiers in Neurorobotics, 11(April), 23. http://doi.org/10.3389/fnbot.2017.00023
A multi-joint model of quiet , upright stance accounts for the “uncontrolled manifold”-structure of joint variance
Reimann, H., & Schöner, G.
Biological Cybernetics, in press

preprint

@article{ReimannSchöner2017, author = {Reimann, Hendrik and Schöner, Gregor}, title = {A multi-joint model of quiet , upright stance accounts for the “uncontrolled manifold”-structure of joint variance}, journal = {Biological Cybernetics}, volume = {in press}, year = {2017}, }

Reimann, H., & Schöner, G.. (2017). A multi-joint model of quiet , upright stance accounts for the “uncontrolled manifold”-structure of joint variance. Biological Cybernetics, in press.
A neural dynamic model generates descriptions of object-oriented actions
Richter, M., Lins, J., & Schöner, G.
Topics in Cognitive Science, 9(1), 35–47

A neural dynamic model generates descriptions of object-oriented actions (PDF)

@article{RichterLinsSchöner2017, author = {Richter, Mathis and Lins, Jonas and Schöner, Gregor}, title = {A neural dynamic model generates descriptions of object-oriented actions}, journal = {Topics in Cognitive Science}, volume = {9}, number = {1}, pages = {35–47}, year = {2017}, doi = {10.1111/tops.12240}, }

Richter, M., Lins, J., & Schöner, G.. (2017). A neural dynamic model generates descriptions of object-oriented actions. Topics in Cognitive Science, 9(1), 35–47. http://doi.org/10.1111/tops.12240
Reaching for objects : a neural process account in a developmental perspective
Schöner, G., Tekülve, J., & Zibner, S.
In D. Corbetta & Santello, M. (Eds.), The selection and production of goal-directed behaviors: Neural correlates, development, learning, and modeling of reach-to-grasp movements Taylor & Francis

preprint

@inproceedings{SchönerTekülveZibner2017, author = {Schöner, Gregor and Tekülve, Jan and Zibner, Stephan}, title = {Reaching for objects : a neural process account in a developmental perspective}, booktitle = {The selection and production of goal-directed behaviors: Neural correlates, development, learning, and modeling of reach-to-grasp movements}, editor = {Corbetta, Daniela and Santello, Marco}, publisher = {Taylor & Francis}, year = {2017}, }

Schöner, G., Tekülve, J., & Zibner, S. (2017). Reaching for objects : a neural process account in a developmental perspective. In D. Corbetta & Santello, M. (Eds.), The selection and production of goal-directed behaviors: Neural correlates, development, learning, and modeling of reach-to-grasp movements. Taylor & Francis.
Dynamic Neural Fields with Intrinsic Plasticity
Strub, C., Schöner, G., Wörgötter, F., & Sandamirskaya, Y.
Frontiers in Computational Neuroscience, 11(August), 74

reprint

@article{StrubSchönerWörgötterEtAl2017, author = {Strub, Claudius and Schöner, Gregor and Wörgötter, Florentin and Sandamirskaya, Yulia}, title = {Dynamic Neural Fields with Intrinsic Plasticity}, journal = {Frontiers in Computational Neuroscience}, volume = {11}, number = {August}, pages = {74}, year = {2017}, doi = {10.3389/FNCOM.2017.00074}, }

Strub, C., Schöner, G., Wörgötter, F., & Sandamirskaya, Y.. (2017). Dynamic Neural Fields with Intrinsic Plasticity. Frontiers in Computational Neuroscience, 11(August), 74. http://doi.org/10.3389/FNCOM.2017.00074

2016

Temporal Asymmetry in Dark–Bright Processing Initiates Propagating Activity across Primary Visual Cortex
Rekauzke, S., Nortmann, N., Staadt, R., Hock, H. S., Schöner, G., & Jancke, D.
The Journal of Neuroscience, 36(6), 1902–1913

pdf

@article{RekauzkeNortmannStaadtEtAl2016, author = {Rekauzke, Sascha and Nortmann, Nora and Staadt, Robert and Hock, Howard S. and Schöner, Gregor and Jancke, Dirk}, title = {Temporal Asymmetry in Dark–Bright Processing Initiates Propagating Activity across Primary Visual Cortex}, journal = {The Journal of Neuroscience}, volume = {36}, number = {6}, pages = {1902–1913}, month = {February}, year = {2016}, doi = {10.1523/jneurosci.3235-15.2016}, }

Rekauzke, S., Nortmann, N., Staadt, R., Hock, H. S., Schöner, G., & Jancke, D.. (2016). Temporal Asymmetry in Dark–Bright Processing Initiates Propagating Activity across Primary Visual Cortex. The Journal of Neuroscience, 36(6), 1902–1913. http://doi.org/10.1523/jneurosci.3235-15.2016
Nonlinear dynamics in the perceptual grouping of connected surfaces
Hock, H. S., & Schöner, G.
Vision Research, 126, 80–96

reprint

@article{HockSchöner2016, author = {Hock, Howard S. and Schöner, Gregor}, title = {Nonlinear dynamics in the perceptual grouping of connected surfaces}, journal = {Vision Research}, volume = {126}, pages = {80–96}, year = {2016}, doi = {10.1016/j.visres.2015.06.006}, }

Hock, H. S., & Schöner, G.. (2016). Nonlinear dynamics in the perceptual grouping of connected surfaces. Vision Research, 126, 80–96. http://doi.org/10.1016/j.visres.2015.06.006
Developing Dynamic Field Theory Architectures for Embodied Cognitive Systems with cedar
Lomp, O., Richter, M., Zibner, S. K. U., & Schöner, G.
Frontiers in Neurorobotics, 10(November), 14

reprint

@article{LompRichterZibnerEtAl2016, author = {Lomp, Oliver and Richter, Mathis and Zibner, Stephan K. U. and Schöner, Gregor}, title = {Developing Dynamic Field Theory Architectures for Embodied Cognitive Systems with cedar}, journal = {Frontiers in Neurorobotics}, volume = {10}, number = {November}, pages = {14}, year = {2016}, doi = {10.3389/fnbot.2016.00014}, }

Lomp, O., Richter, M., Zibner, S. K. U., & Schöner, G.. (2016). Developing Dynamic Field Theory Architectures for Embodied Cognitive Systems with cedar. Frontiers in Neurorobotics, 10(November), 14. http://doi.org/10.3389/fnbot.2016.00014
Coordination of muscle torques stabilizes upright standing posture: an UCM analysis
Park, E., Reimann, H., & Schöner, G.
Experimental Brain Research, 234(6), 1757–1767

preprint

@article{ParkReimannSchöner2016, author = {Park, Eunse and Reimann, Hendrik and Schöner, Gregor}, title = {Coordination of muscle torques stabilizes upright standing posture: an UCM analysis}, journal = {Experimental Brain Research}, volume = {234}, number = {6}, pages = {1757–1767}, year = {2016}, doi = {10.1007/s00221-016-4576-x}, }

Park, E., Reimann, H., & Schöner, G.. (2016). Coordination of muscle torques stabilizes upright standing posture: an UCM analysis. Experimental Brain Research, 234(6), 1757–1767. http://doi.org/10.1007/s00221-016-4576-x
Separating Timing, Movement Conditions and Individual Differences in the Analysis of Human Movement
Raket, L. L., Grimme, B., Schöner, G., Igel, C., & Markussen, B.
PLoS Computational Biology, 12(9), 1–27

reprint

@article{RaketGrimmeSchönerEtAl2016, author = {Raket, Lars Lau and Grimme, Britta and Schöner, Gregor and Igel, Christian and Markussen, Bo}, title = {Separating Timing, Movement Conditions and Individual Differences in the Analysis of Human Movement}, journal = {PLoS Computational Biology}, volume = {12}, number = {9}, pages = {1–27}, year = {2016}, doi = {10.1371/journal.pcbi.1005092}, }

Raket, L. L., Grimme, B., Schöner, G., Igel, C., & Markussen, B. (2016). Separating Timing, Movement Conditions and Individual Differences in the Analysis of Human Movement. PLoS Computational Biology, 12(9), 1–27. http://doi.org/10.1371/journal.pcbi.1005092
A neural dynamic model parses object-oriented actions
Richter, M., Lins, J., & Schöner, G.
In A. Papafragou, Grodner, D., Mirman, D., & Trueswell, J. C. (Eds.), Proceedings of the 38th Annual Conference of the Cognitive Science Society (pp. 1931–1936) Austin, TX: Cognitive Science Society

pdf

@inproceedings{RichterLinsSchöner2016, author = {Richter, Mathis and Lins, Jonas and Schöner, Gregor}, title = {A neural dynamic model parses object-oriented actions}, booktitle = {Proceedings of the 38th Annual Conference of the Cognitive Science Society}, editor = {Papafragou, A. and Grodner, D. and Mirman, D. and Trueswell, J.C.}, pages = {1931–1936}, publisher = {Cognitive Science Society}, address = {Austin, TX}, year = {2016}, }

Richter, M., Lins, J., & Schöner, G.. (2016). A neural dynamic model parses object-oriented actions. In A. Papafragou, Grodner, D., Mirman, D., & Trueswell, J. C. (Eds.), Proceedings of the 38th Annual Conference of the Cognitive Science Society (pp. 1931–1936). Austin, TX: Cognitive Science Society.
A neural process model of learning to sequentially organize and activate pre-reaches
Tekülve, J., Zibner, S. K. U., & Schöner, G.
In Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2016 Joint IEEE International Conferences on

A neural process model of learning to sequentially organize and activate pre-reaches

@inproceedings{TekülveZibnerSchöner2016, author = {Tekülve, Jan and Zibner, Stephan K U and Schöner, Gregor}, title = {A neural process model of learning to sequentially organize and activate pre-reaches}, booktitle = {Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2016 Joint IEEE International Conferences on}, year = {2016}, }

Tekülve, J., Zibner, S. K. U., & Schöner, G.. (2016). A neural process model of learning to sequentially organize and activate pre-reaches. In Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2016 Joint IEEE International Conferences on.

2015

Carry-over coarticulation in joint angles
Hansen, E., Grimme, B., Reimann, H., & Schöner, G.
Experimental Brain Research, 233(9), 2555–2569

reprint

@article{HansenGrimmeReimannEtAl2015, author = {Hansen, Eva and Grimme, Britta and Reimann, Hendrik and Schöner, Gregor}, title = {Carry-over coarticulation in joint angles}, journal = {Experimental Brain Research}, volume = {233}, number = {9}, pages = {2555–2569}, year = {2015}, doi = {10.1007/s00221-015-4327-4}, }

Hansen, E., Grimme, B., Reimann, H., & Schöner, G.. (2015). Carry-over coarticulation in joint angles. Experimental Brain Research, 233(9), 2555–2569. http://doi.org/10.1007/s00221-015-4327-4
Parsing of action sequences: A neural dynamics approach
Lobato, D., Sandamirskaya, Y., Richter, M., & Schöner, G.
Paladyn, Journal of Behavioral Robotics, 6(1), 119–135

reprint

@article{LobatoSandamirskayaRichterEtAl2015, author = {Lobato, David and Sandamirskaya, Yulia and Richter, Mathis and Schöner, Gregor}, title = {Parsing of action sequences: A neural dynamics approach}, journal = {Paladyn, Journal of Behavioral Robotics}, volume = {6}, number = {1}, pages = {119–135}, year = {2015}, doi = {10.1515/pjbr-2015-0008}, }

Lobato, D., Sandamirskaya, Y., Richter, M., & Schöner, G.. (2015). Parsing of action sequences: A neural dynamics approach. Paladyn, Journal of Behavioral Robotics, 6(1), 119–135. http://doi.org/10.1515/pjbr-2015-0008
Task-specific stability of abundant systems: Structure of variance and motor equivalence
Mattos, D., Schöner, G., Zatsiorsky, V. M., & Latash, M. L.
Neuroscience, 310, 600–615

reprint

@article{MattosSchönerZatsiorskyEtAl2015b, author = {Mattos, D. and Schöner, G. and Zatsiorsky, V. M. and Latash, M. L.}, title = {Task-specific stability of abundant systems: Structure of variance and motor equivalence}, journal = {Neuroscience}, volume = {310}, pages = {600–615}, year = {2015}, doi = {10.1016/j.neuroscience.2015.09.071}, }

Mattos, D., Schöner, G., Zatsiorsky, V. M., & Latash, M. L. (2015). Task-specific stability of abundant systems: Structure of variance and motor equivalence. Neuroscience, 310, 600–615. http://doi.org/10.1016/j.neuroscience.2015.09.071
Motor equivalence during multi-finger accurate force production
Mattos, D., Schöner, G., Zatsiorsky, V. M., & Latash, M. L.
Experimental Brain Research, 233, 487–502

pdf

@article{MattosSchönerZatsiorskyEtAl2015, author = {Mattos, Daniela and Schöner, Gregor and Zatsiorsky, Vladimir M. and Latash, Mark L.}, title = {Motor equivalence during multi-finger accurate force production}, journal = {Experimental Brain Research}, volume = {233}, pages = {487–502}, year = {2015}, doi = {10.1007/s00221-014-4128-1}, }

Mattos, D., Schöner, G., Zatsiorsky, V. M., & Latash, M. L. (2015). Motor equivalence during multi-finger accurate force production. Experimental Brain Research, 233, 487–502. http://doi.org/10.1007/s00221-014-4128-1
The Dynamics of Neural Activation Variables
Reimann, H., Lins, J., & Schöner, G.
Paladyn, Journal of Behavioral Robotics, 6(1), 57–70

pdf

@article{ReimannLinsSchöner2015, author = {Reimann, Hendrik and Lins, Jonas and Schöner, Gregor}, title = {The Dynamics of Neural Activation Variables}, journal = {Paladyn, Journal of Behavioral Robotics}, volume = {6}, number = {1}, pages = {57–70}, year = {2015}, }

Reimann, H., Lins, J., & Schöner, G.. (2015). The Dynamics of Neural Activation Variables. Paladyn, Journal of Behavioral Robotics, 6(1), 57–70.
The Neural Dynamics of Goal-Directed Arm Movements: A Developmental Perspective
Zibner, S. K. U., Tekülve, J., & Schöner, G.
In Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2015 Joint IEEE International Conferences on (pp. 154–161)

model simulation pdf

@inproceedings{ZibnerTekülveSchöner2015, author = {Zibner, Stephan K U and Tekülve, Jan and Schöner, Gregor}, title = {The Neural Dynamics of Goal-Directed Arm Movements: A Developmental Perspective}, booktitle = {Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2015 Joint IEEE International Conferences on}, pages = {154–161}, year = {2015}, }

Zibner, S. K. U., Tekülve, J., & Schöner, G.. (2015). The Neural Dynamics of Goal-Directed Arm Movements: A Developmental Perspective. In Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2015 Joint IEEE International Conferences on (pp. 154–161).
The Sequential Organization of Movement is Critical to the Development of Reaching: A Neural Dynamics Account
Zibner, S. K. U., Tekülve, J., & Schöner, G.
In Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2015 Joint IEEE International Conferences on (pp. 39–46)

pdf

@inproceedings{ZibnerTekülveSchöner2015b, author = {Zibner, Stephan K U and Tekülve, Jan and Schöner, Gregor}, title = {The Sequential Organization of Movement is Critical to the Development of Reaching: A Neural Dynamics Account}, booktitle = {Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2015 Joint IEEE International Conferences on}, pages = {39–46}, year = {2015}, }

Zibner, S. K. U., Tekülve, J., & Schöner, G.. (2015). The Sequential Organization of Movement is Critical to the Development of Reaching: A Neural Dynamics Account. In Development and Learning and Epigenetic Robotics (ICDL-Epirob), 2015 Joint IEEE International Conferences on (pp. 39–46).

2014

A comparison between reactive potential fields and Attractor Dynamics
Hernandes, A. C., Guerrero, H. B., Becker, M., Jokeit, J. -S., & Schöner, G.
Circuits and Systems (CWCAS), 2014 IEEE 5th Colombian Workshop on

reprint

@article{HernandesGuerreroBeckerEtAl2014, author = {Hernandes, Andre Carmona and Guerrero, Henry Borrero and Becker, Marcelo and Jokeit, Jean-Stephane and Schöner, Gregor}, title = {A comparison between reactive potential fields and Attractor Dynamics}, year = {2014}, }

Hernandes, A. C., Guerrero, H. B., Becker, M., Jokeit, J. -S., & Schöner, G.. (2014). A comparison between reactive potential fields and Attractor Dynamics. Circuits and Systems (CWCAS), 2014 IEEE 5th Colombian Workshop on.
A neural dynamics architecture for grasping that integrates perception and movement generation and enables on-line updating
Knips, G., Zibner, S. K. U., Reimann, H., Popova, I., & Schöner, G.
In International Conference on Intelligent Robots and Systems (IROS) (pp. 646–653)

@inproceedings{KnipsZibnerReimannEtAl2014, author = {Knips, Guido and Zibner, Stephan K. U. and Reimann, Hendrik and Popova, Irina and Schöner, Gregor}, title = {A neural dynamics architecture for grasping that integrates perception and movement generation and enables on-line updating}, booktitle = {International Conference on Intelligent Robots and Systems (IROS)}, pages = {646–653}, year = {2014}, }

Knips, G., Zibner, S. K. U., Reimann, H., Popova, I., & Schöner, G.. (2014). A neural dynamics architecture for grasping that integrates perception and movement generation and enables on-line updating. In International Conference on Intelligent Robots and Systems (IROS) (pp. 646–653).
Reaching and grasping novel objects: Using neural dynamics to integrate and organize scene and object perception with movement generation
Knips, G., Zibner, S. K. U., Reimann, H., Popova, I., & Schöner, G.
In International Conference on Development and Learning and on Epigenetic Robotics (ICDL-EPIROB) (pp. 416–423)

@inproceedings{KnipsZibnerReimannEtAl2014b, author = {Knips, Guido and Zibner, Stephan K. U. and Reimann, Hendrik and Popova, Irina and Schöner, Gregor}, title = {Reaching and grasping novel objects: Using neural dynamics to integrate and organize scene and object perception with movement generation}, booktitle = {International Conference on Development and Learning and on Epigenetic Robotics (ICDL-EPIROB)}, pages = {416–423}, year = {2014}, }

Knips, G., Zibner, S. K. U., Reimann, H., Popova, I., & Schöner, G.. (2014). Reaching and grasping novel objects: Using neural dynamics to integrate and organize scene and object perception with movement generation. In International Conference on Development and Learning and on Epigenetic Robotics (ICDL-EPIROB) (pp. 416–423).

Neural Fields

Lins, J., & Schöner, G.

In S. Coombes, beim Graben, P., Potthast, R., & , J. W. (Eds.) (pp. 319–339) Springer Berlin Heidelberg

@inbook{LinsSchöner2014,
	author		=	{Lins, Jonas and Schöner, Gregor},
	title		=	{Neural Fields},
	editor		=	{Coombes, S. and beim Graben, P. and Potthast, R. and , J. Wright},
	chapter		=	{A Neural Approach to Cognition Based on Dynamic Field Theory},
	pages		=	{319–339},
	publisher	=	{Springer Berlin Heidelberg},
	year		=	{2014},
}

Instance-based object recognition with simultaneous pose estimation using keypoint maps and neural dynamics
Lomp, O., Terzić, K., Faubel, C., du Buf, J. M. H., & Schöner, G.
In International Conference on Artificial Neural Networks (pp. 451–458) Springer

@inproceedings{LompTerzićFaubelEtAl2014, author = {Lomp, Oliver and Terzić, Kasim and Faubel, Christian and du Buf, JM Hans and Schöner, Gregor}, title = {Instance-based object recognition with simultaneous pose estimation using keypoint maps and neural dynamics}, booktitle = {International Conference on Artificial Neural Networks}, pages = {451–458}, organization = {Springer}, year = {2014}, }

Lomp, O., Terzić, K., Faubel, C., du Buf, J. M. H., & Schöner, G.. (2014). Instance-based object recognition with simultaneous pose estimation using keypoint maps and neural dynamics. In International Conference on Artificial Neural Networks (pp. 451–458). Springer.
Reinforcement-Driven Shaping of Sequence Learning in Neural Dynamics
Luciw, M., Kazerounian, S., Sandamirskaya, Y., Schöner, G., & Schmidhuber, J.
In Simulation of Adaptive Behavior, SAB

pdf

@inproceedings{LuciwKazerounianSandamirskayaEtAl2014, author = {Luciw, M and Kazerounian, S. and Sandamirskaya, Y and Schöner, G. and Schmidhuber, J.}, title = {Reinforcement-Driven Shaping of Sequence Learning in Neural Dynamics}, booktitle = {Simulation of Adaptive Behavior, SAB}, year = {2014}, }

Luciw, M., Kazerounian, S., Sandamirskaya, Y., Schöner, G., & Schmidhuber, J. (2014). Reinforcement-Driven Shaping of Sequence Learning in Neural Dynamics. In Simulation of Adaptive Behavior, SAB.
Change occurs when body meets environment: A review of the embodied nature of development
Maruyama, S., Dineva, E., Spencer, J. P., & Schöner, G.
Japanese Psychological Research, 56, 385–401

pdf

@article{MaruyamaDinevaSpencerEtAl2014, author = {Maruyama, Shin and Dineva, Evelina and Spencer, John P. and Schöner, Gregor}, title = {Change occurs when body meets environment: A review of the embodied nature of development}, journal = {Japanese Psychological Research}, volume = {56}, pages = {385–401}, year = {2014}, doi = {10.1111/jpr.12065}, }

Maruyama, S., Dineva, E., Spencer, J. P., & Schöner, G.. (2014). Change occurs when body meets environment: A review of the embodied nature of development. Japanese Psychological Research, 56, 385–401. http://doi.org/10.1111/jpr.12065
Contrasting accounts of direction and shape perception in short-range motion: Counterchange compared with motion energy detection.
Norman, J., Hock, H., & Schoner, G.
Attention, perception & psychophysics, 76, 1350–70

pdf

@article{NormanHockSchoner2014, author = {Norman, Joseph and Hock, Howard and Schoner, Gregor}, title = {Contrasting accounts of direction and shape perception in short-range motion: Counterchange compared with motion energy detection.}, journal = {Attention, perception & psychophysics}, volume = {76}, pages = {1350–70}, year = {2014}, doi = {10.3758/s13414-014-0650-2}, }

Norman, J., Hock, H., & Schoner, G.. (2014). Contrasting accounts of direction and shape perception in short-range motion: Counterchange compared with motion energy detection. Attention, perception & psychophysics, 76, 1350–70. http://doi.org/10.3758/s13414-014-0650-2
A neural dynamics to organize timed movement : Demonstration in a robot ball bouncing task
Oubbati, F., Richter, M., & Schöner, G.
In 4th International Conference on Development and Learning and on Epigenetic Robotics (pp. 291–298) Palazzo Ducale, Genoa, Italy

reprint

@inproceedings{OubbatiRichterSchöner2014, author = {Oubbati, Farid and Richter, Mathis and Schöner, Gregor}, title = {A neural dynamics to organize timed movement : Demonstration in a robot ball bouncing task}, booktitle = {4th International Conference on Development and Learning and on Epigenetic Robotics}, pages = {291–298}, address = {Palazzo Ducale, Genoa, Italy}, year = {2014}, }

Oubbati, F., Richter, M., & Schöner, G.. (2014). A neural dynamics to organize timed movement : Demonstration in a robot ball bouncing task. In 4th International Conference on Development and Learning and on Epigenetic Robotics (pp. 291–298). Palazzo Ducale, Genoa, Italy.
Autonomous Neural Dynamics to Test Hypotheses in a Model of Spatial Language
Richter, M., Lins, J., Schneegans, S., Sandamirskaya, Y., & Schöner, G.
In P. Bello, Guarini, M., McShane, M., & Scassellati, B. (Eds.), Proceedings of the 36th Annual Conference of the Cognitive Science Society (pp. 2847–2852) Austin, TX: Cognitive Science Society

pdf

@inproceedings{RichterLinsSchneegansEtAl2014, author = {Richter, Mathis and Lins, Jonas and Schneegans, Sebastian and Sandamirskaya, Yulia and Schöner, Gregor}, title = {Autonomous Neural Dynamics to Test Hypotheses in a Model of Spatial Language}, booktitle = {Proceedings of the 36th Annual Conference of the Cognitive Science Society}, editor = {Bello, P. and Guarini, M. and McShane, M. and Scassellati, B.}, pages = {2847–2852}, publisher = {Cognitive Science Society}, address = {Austin, TX}, year = {2014}, }

Richter, M., Lins, J., Schneegans, S., Sandamirskaya, Y., & Schöner, G.. (2014). Autonomous Neural Dynamics to Test Hypotheses in a Model of Spatial Language. In P. Bello, Guarini, M., McShane, M., & Scassellati, B. (Eds.), Proceedings of the 36th Annual Conference of the Cognitive Science Society (pp. 2847–2852). Austin, TX: Cognitive Science Society.
A neural dynamic architecture resolves phrases about spatial relations in visual scenes
Richter, M., Lins, J., Schneegans, S., & Schöner, G.
In 24th International Conference on Artificial Neural Networks (ICANN) (pp. 201–208) Heidelberg, Germany: Springer

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@inproceedings{RichterLinsSchneegansEtAl2014b, author = {Richter, Mathis and Lins, Jonas and Schneegans, Sebastian and Schöner, Gregor}, title = {A neural dynamic architecture resolves phrases about spatial relations in visual scenes}, booktitle = {24th International Conference on Artificial Neural Networks (ICANN)}, pages = {201–208}, publisher = {Springer}, address = {Heidelberg, Germany}, year = {2014}, }

Richter, M., Lins, J., Schneegans, S., & Schöner, G.. (2014). A neural dynamic architecture resolves phrases about spatial relations in visual scenes. In 24th International Conference on Artificial Neural Networks (ICANN) (pp. 201–208). Heidelberg, Germany: Springer.
Dynamic interactions between visual working memory and saccade target selection
Schneegans, S., Spencer, J. P., Schöner, G., Hwang, S., & Hollingworth, A.
Journal of vision, 14(11), 9

supplementary material pdf

@article{SchneegansSpencerSchönerEtAl2014, author = {Schneegans, Sebastian and Spencer, John P and Schöner, Gregor and Hwang, Seongmin and Hollingworth, Andrew}, title = {Dynamic interactions between visual working memory and saccade target selection}, journal = {Journal of vision}, volume = {14}, number = {11}, pages = {9}, year = {2014}, }

Schneegans, S., Spencer, J. P., Schöner, G., Hwang, S., & Hollingworth, A. (2014). Dynamic interactions between visual working memory and saccade target selection. Journal of vision, 14(11), 9.
Use of the Uncontrolled Manifold (UCM) Approach to Understand MotorVariability, Motor Equivalence, and Self-motion
Scholz, J. P., & Schöner, G.
In M. F. Levin (Ed.), Progress in Motor Control (Vol. 826, p. Chapter 7) Springer International Publishing

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@incollection{ScholzSchöner2014, author = {Scholz, John P and Schöner, Gregor}, title = {Use of the Uncontrolled Manifold (UCM) Approach to Understand MotorVariability, Motor Equivalence, and Self-motion}, booktitle = {Progress in Motor Control}, editor = {Levin, Mindy F}, pages = {Chapter 7}, publisher = {Springer International Publishing}, volume = {826}, series = {Advances in Experimental Medicine and Biology}, year = {2014}, doi = {10.1007/978-3-319-47313-0}, }

Scholz, J. P., & Schöner, G.. (2014). Use of the Uncontrolled Manifold (UCM) Approach to Understand MotorVariability, Motor Equivalence, and Self-motion. In M. F. Levin (Ed.), Progress in Motor Control (Vol. 826, p. Chapter 7). Springer International Publishing. http://doi.org/10.1007/978-3-319-47313-0
Embodied Cognition, Neural Field Models of
Schöner, G.
In Encyclopedia of Computational Neuroscience (pp. 1084–1092) Springer Berlin Heidelberg

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Schöner, G. (2014). Embodied Cognition, Neural Field Models of. In Encyclopedia of Computational Neuroscience (pp. 1084–1092). Springer Berlin Heidelberg.
Dynamical Systems Thinking: From Metaphor to Neural Theory
Schöner, G.
In P. C. M. Molenaar, Lerner, R. M., & Newell, K. M. (Eds.), Handbook of Developmental Systems Theory and Methodology (pp. 188–219) New York, New York, USA: Guilford Publications

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@inproceedings{Schöner2014b, author = {Schöner, G.}, title = {Dynamical Systems Thinking: From Metaphor to Neural Theory}, booktitle = {Handbook of Developmental Systems Theory and Methodology}, editor = {Molenaar, Peter C M and Lerner, Richard M and Newell, Karl M}, pages = {188–219}, publisher = {Guilford Publications}, address = {New York, New York, USA}, year = {2014}, }

Schöner, G. (2014). Dynamical Systems Thinking: From Metaphor to Neural Theory. In P. C. M. Molenaar, Lerner, R. M., & Newell, K. M. (Eds.), Handbook of Developmental Systems Theory and Methodology (pp. 188–219). New York, New York, USA: Guilford Publications.
Coordination Dynamics
Schöner, G., & Nowak, E.
In D. Jaeger & Jung, R. (Eds.), Encyclopedia of Computational Neuroscience (pp. 1–3) New York, NY: Springer New York

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@incollection{SchönerNowak2014, author = {Schöner, Gregor and Nowak, Eva}, title = {Coordination Dynamics}, booktitle = {Encyclopedia of Computational Neuroscience}, editor = {Jaeger, Dieter and Jung, Ranu}, pages = {1–3}, publisher = {Springer New York}, address = {New York, NY}, year = {2014}, doi = {10.1007/978-1-4614-7320-6_63-1}, }

Schöner, G., & Nowak, E. (2014). Coordination Dynamics. In D. Jaeger & Jung, R. (Eds.), Encyclopedia of Computational Neuroscience (pp. 1–3). New York, NY: Springer New York. http://doi.org/10.1007/978-1-4614-7320-6_63-1

2013

Autonomous robot hitting task using dynamical system approach
Oubbati, F., Richter, M., & Schöner, G.
In IEEE International Conference on Systems, Man, and Cybernetics (pp. 4042–4047) IEEE

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@inproceedings{OubbatiRichterSchöner2013, author = {Oubbati, Farid and Richter, Mathis and Schöner, Gregor}, title = {Autonomous robot hitting task using dynamical system approach}, booktitle = {IEEE International Conference on Systems, Man, and Cybernetics}, pages = {4042–4047}, publisher = {IEEE}, month = {October}, year = {2013}, doi = {10.1109/SMC.2013.690}, }

Oubbati, F., Richter, M., & Schöner, G.. (2013). Autonomous robot hitting task using dynamical system approach. In IEEE International Conference on Systems, Man, and Cybernetics (pp. 4042–4047). IEEE. http://doi.org/10.1109/SMC.2013.690
A software framework for cognition, embodiment, dynamics, and autonomy in robotics: cedar
Lomp, O., Zibner, S. K. U., Richter, M., Ranó, I., & Schöner, G.
In International Conference on Artificial Neural Networks (pp. 475–482) Springer

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@inproceedings{LompZibnerRichterEtAl2013, author = {Lomp, Oliver and Zibner, Stephan Klaus Ulrich and Richter, Mathis and Ranó, Inaki and Schöner, Gregor}, title = {A software framework for cognition, embodiment, dynamics, and autonomy in robotics: cedar}, booktitle = {International Conference on Artificial Neural Networks}, pages = {475–482}, organization = {Springer}, year = {2013}, }

Lomp, O., Zibner, S. K. U., Richter, M., Ranó, I., & Schöner, G.. (2013). A software framework for cognition, embodiment, dynamics, and autonomy in robotics: cedar. In International Conference on Artificial Neural Networks (pp. 475–482). Springer.
Using Dynamic Field Theory to Extend the Embodiment Stance toward Higher Cognition
Sandamirskaya, Y., Zibner, S. K. U., Schneegans, S., & Schöner, G.
New Ideas in Psychology, 31(3), 322–339

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@article{SandamirskayaZibnerSchneegansEtAl2013, author = {Sandamirskaya, Yulia and Zibner, Stephan KU and Schneegans, Sebastian and Schöner, Gregor}, title = {Using Dynamic Field Theory to Extend the Embodiment Stance toward Higher Cognition}, journal = {New Ideas in Psychology}, volume = {31}, number = {3}, pages = {322–339}, year = {2013}, }

Sandamirskaya, Y., Zibner, S. K. U., Schneegans, S., & Schöner, G.. (2013). Using Dynamic Field Theory to Extend the Embodiment Stance toward Higher Cognition. New Ideas in Psychology, 31(3), 322–339.

2012

Autonomous reinforcement of behavioral sequences in neural dynamics
Kazerounian, S., Luciw, M., Sandamirskaya, Y., Richter, M., Schmidhuber, J., & Schöner, G.
In IEEE International Conference on Development and Learning and Epigenetic Robotics (Vol. 1, pp. 1–2) Ieee

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@inproceedings{KazerounianLuciwSandamirskayaEtAl2012, author = {Kazerounian, Sohrob and Luciw, Matthew and Sandamirskaya, Yulia and Richter, Mathis and Schmidhuber, Jürgen and Schöner, Gregor}, title = {Autonomous reinforcement of behavioral sequences in neural dynamics}, booktitle = {IEEE International Conference on Development and Learning and Epigenetic Robotics}, pages = {1–2}, publisher = {Ieee}, volume = {1}, month = {November}, year = {2012}, doi = {10.1109/DevLrn.2012.6400831}, }

Kazerounian, S., Luciw, M., Sandamirskaya, Y., Richter, M., Schmidhuber, J., & Schöner, G.. (2012). Autonomous reinforcement of behavioral sequences in neural dynamics. In IEEE International Conference on Development and Learning and Epigenetic Robotics (Vol. 1, pp. 1–2). Ieee. http://doi.org/10.1109/DevLrn.2012.6400831
Naturalistic arm movements during obstacle avoidance in 3D and the identification of movement primitives.
Grimme, B., Lipinski, J., & Schöner, G.
Experimental brain research, 222(3), 185–200

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@article{GrimmeLipinskiSchöner2012, author = {Grimme, Britta and Lipinski, John and Schöner, Gregor}, title = {Naturalistic arm movements during obstacle avoidance in 3D and the identification of movement primitives.}, journal = {Experimental brain research}, volume = {222}, number = {3}, pages = {185–200}, month = {October}, year = {2012}, doi = {10.1007/s00221-012-3205-6}, }

Grimme, B., Lipinski, J., & Schöner, G.. (2012). Naturalistic arm movements during obstacle avoidance in 3D and the identification of movement primitives. Experimental brain research, 222(3), 185–200. http://doi.org/10.1007/s00221-012-3205-6
A Dynamic Field Architecture for the Generation of Hierarchically Organized Sequences
Duran, B., Sandamirskaya, Y., & Schöner, G.
In A. E. P. Villa, Duch, W., Érdi, P., Masulli, F., & Palm, G. (Eds.), Artificial Neural Networks and Machine Learning – ICANN 2012 (Vol. 7552, pp. 25–32) Springer Berlin Heidelberg

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@inproceedings{DuranSandamirskayaSchöner2012, author = {Duran, Boris and Sandamirskaya, Yulia and Schöner, Gregor}, title = {A Dynamic Field Architecture for the Generation of Hierarchically Organized Sequences}, booktitle = {Artificial Neural Networks and Machine Learning – ICANN 2012}, editor = {Villa, AlessandroE.P. and Duch, Włodzisław and Érdi, Péter and Masulli, Francesco and Palm, Günther}, pages = {25–32}, publisher = {Springer Berlin Heidelberg}, volume = {7552}, series = {Lecture Notes in Computer Science}, year = {2012}, doi = {10.1007/978-3-642-33269-2_4}, }

Duran, B., Sandamirskaya, Y., & Schöner, G.. (2012). A Dynamic Field Architecture for the Generation of Hierarchically Organized Sequences. In A. E. P. Villa, Duch, W., Érdi, P., Masulli, F., & Palm, G. (Eds.), Artificial Neural Networks and Machine Learning – ICANN 2012 (Vol. 7552, pp. 25–32). Springer Berlin Heidelberg. http://doi.org/10.1007/978-3-642-33269-2_4
Sensorimotor Learning Biases Choice Behavior: A Learning Neural Field Model for Decision Making
Klaes, C., Schneegans, S., Schöner, G., & Gail, A.
PLoS computational biology, 8(11), e1002774

supplementary material pdf

@article{KlaesSchneegansSchönerEtAl2012, author = {Klaes, Christian and Schneegans, Sebastian and Schöner, Gregor and Gail, Alexander}, title = {Sensorimotor Learning Biases Choice Behavior: A Learning Neural Field Model for Decision Making}, journal = {PLoS computational biology}, volume = {8}, number = {11}, pages = {e1002774}, year = {2012}, }

Klaes, C., Schneegans, S., Schöner, G., & Gail, A. (2012). Sensorimotor Learning Biases Choice Behavior: A Learning Neural Field Model for Decision Making. PLoS computational biology, 8(11), e1002774.
The Function and Fallibility of Visual Feature Integration: A Dynamic Neural Field Model of Illusory Conjunctions
Lins, J., Schneegans, S., Spencer, J., & Schöner, G.
Frontiers in Computational Neuroscience, (128)

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@article{LinsSchneegansSpencerEtAl2012, author = {Lins, Jonas and Schneegans, Sebastian and Spencer, John and Schöner, Gregor}, title = {The Function and Fallibility of Visual Feature Integration: A Dynamic Neural Field Model of Illusory Conjunctions}, journal = {Frontiers in Computational Neuroscience}, volume = {}, number = {128}, year = {2012}, doi = {10.3389/conf.fncom.2012.55.00128}, }

Lins, J., Schneegans, S., Spencer, J., & Schöner, G.. (2012). The Function and Fallibility of Visual Feature Integration: A Dynamic Neural Field Model of Illusory Conjunctions. Frontiers in Computational Neuroscience, (128). http://doi.org/10.3389/conf.fncom.2012.55.00128
A Neuro-Behavioral Model of Flexible Spatial Language Behaviors
Lipinski, J., Schneegans, S., Sandamirskaya, Y., Spencer, J. P., & Schöner, G.
Journal of Experimental Psychology: Learning, Memory and Cognition., 38(6), 1490–1511

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@article{LipinskiSchneegansSandamirskayaEtAl2012, author = {Lipinski, J. and Schneegans, S. and Sandamirskaya, Y. and Spencer, J.P. and Schöner, G.}, title = {A Neuro-Behavioral Model of Flexible Spatial Language Behaviors}, journal = {Journal of Experimental Psychology: Learning, Memory and Cognition.}, volume = {38}, number = {6}, pages = {1490–1511}, year = {2012}, }

Lipinski, J., Schneegans, S., Sandamirskaya, Y., Spencer, J. P., & Schöner, G.. (2012). A Neuro-Behavioral Model of Flexible Spatial Language Behaviors. Journal of Experimental Psychology: Learning, Memory and Cognition., 38(6), 1490–1511.
Functional synergies underlying control of upright posture during changes in head orientation
Park, E., Schöner, G., & Scholz, J. P.
PLoS ONE, 7(8), 1–12

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@article{ParkSchönerScholz2012, author = {Park, Eunse and Schöner, Gregor and Scholz, John P.}, title = {Functional synergies underlying control of upright posture during changes in head orientation}, journal = {PLoS ONE}, volume = {7}, number = {8}, pages = {1–12}, year = {2012}, doi = {10.1371/journal.pone.0041583}, }

Park, E., Schöner, G., & Scholz, J. P. (2012). Functional synergies underlying control of upright posture during changes in head orientation. PLoS ONE, 7(8), 1–12. http://doi.org/10.1371/journal.pone.0041583
A robotic architecture for action selection and behavioral organization inspired by human cognition
Richter, M., Sandamirskaya, Y., & Schöner, G.
In IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS

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@inproceedings{RichterSandamirskayaSchöner2012, author = {Richter, M. and Sandamirskaya, Y. and Schöner, G}, title = {A robotic architecture for action selection and behavioral organization inspired by human cognition}, booktitle = {IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS}, year = {2012}, }

Richter, M., Sandamirskaya, Y., & Schöner, G.. (2012). A robotic architecture for action selection and behavioral organization inspired by human cognition. In IEEE/RSJ International Conference on Intelligent Robots and Systems, IROS.
A neural mechanism for coordinate transformation predicts pre-saccadic remapping
Schneegans, S., & Schöner, G.
Biological cybernetics, 106(2), 89–109

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@article{SchneegansSchöner2012, author = {Schneegans, Sebastian and Schöner, Gregor}, title = {A neural mechanism for coordinate transformation predicts pre-saccadic remapping}, journal = {Biological cybernetics}, volume = {106}, number = {2}, pages = {89–109}, year = {2012}, }

Schneegans, S., & Schöner, G.. (2012). A neural mechanism for coordinate transformation predicts pre-saccadic remapping. Biological cybernetics, 106(2), 89–109.
How visual information links to multijoint coordination during quiet standing
Scholz, J. P., Park, E., Jeka, J. J., Schöner, G., & Kiemel, T.
Experimental Brain Research, 222, 229–239

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@article{ScholzParkJekaEtAl2012, author = {Scholz, J. P. and Park, E. and Jeka, J. J. and Schöner, G. and Kiemel, T.}, title = {How visual information links to multijoint coordination during quiet standing}, journal = {Experimental Brain Research}, volume = {222}, pages = {229–239}, year = {2012}, doi = {10.1007/s00221-012-3210-9}, }

Scholz, J. P., Park, E., Jeka, J. J., Schöner, G., & Kiemel, T. (2012). How visual information links to multijoint coordination during quiet standing. Experimental Brain Research, 222, 229–239. http://doi.org/10.1007/s00221-012-3210-9
A neural-dynamic architecture for flexible spatial language: intrinsic frames, the term “between”, and autonomy
van Hengel, U., Sandamirskaya, Y., Schneegans, S., & Schöner, G.
In 21st IEEE International Symposium on Robot and Human Interactive Communication (Ro-Man) 2012 (pp. 150–157)

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@inproceedings{van HengelSandamirskayaSchneegansEtAl2012, author = {van Hengel, U and Sandamirskaya, Y and Schneegans, S and Schöner, G}, title = {A neural-dynamic architecture for flexible spatial language: intrinsic frames, the term “between”, and autonomy}, booktitle = {21st IEEE International Symposium on Robot and Human Interactive Communication (Ro-Man) 2012}, pages = {150–157}, year = {2012}, }

van Hengel, U., Sandamirskaya, Y., Schneegans, S., & Schöner, G.. (2012). A neural-dynamic architecture for flexible spatial language: intrinsic frames, the term “between”, and autonomy. In 21st IEEE International Symposium on Robot and Human Interactive Communication (Ro-Man) 2012 (pp. 150–157).

2011

The temporal dynamics of global-to-local feedback in the formation of hierarchical motion patterns: psychophysics and computational simulations.
Hock, H. S., Schöner, G., Brownlow, S., & Taler, D.
Attention, perception & psychophysics, 73(4), 1171–94

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@article{HockSchönerBrownlowEtAl2011, author = {Hock, Howard S and Schöner, Gregor and Brownlow, Stacey and Taler, Dana}, title = {The temporal dynamics of global-to-local feedback in the formation of hierarchical motion patterns: psychophysics and computational simulations.}, journal = {Attention, perception & psychophysics}, volume = {73}, number = {4}, pages = {1171–94}, month = {May}, year = {2011}, doi = {10.3758/s13414-011-0105-y}, }

Hock, H. S., Schöner, G., Brownlow, S., & Taler, D. (2011). The temporal dynamics of global-to-local feedback in the formation of hierarchical motion patterns: psychophysics and computational simulations. Attention, perception & psychophysics, 73(4), 1171–94. http://doi.org/10.3758/s13414-011-0105-y
Limb versus speech motor control: a conceptual review.
Grimme, B., Fuchs, S., Perrier, P., & Schöner, G.
Motor control, 15(1), 5–33

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@article{GrimmeFuchsPerrierEtAl2011, author = {Grimme, Britta and Fuchs, Susanne and Perrier, Pascal and Schöner, Gregor}, title = {Limb versus speech motor control: a conceptual review.}, journal = {Motor control}, volume = {15}, number = {1}, pages = {5–33}, month = {January}, year = {2011}, }

Grimme, B., Fuchs, S., Perrier, P., & Schöner, G.. (2011). Limb versus speech motor control: a conceptual review. Motor control, 15(1), 5–33. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/21339512
Autonomous movement generation for manipulators with multiple simultaneous constraints using the attractor dynamics approach
Reimann, H., Iossifidis, I., & Schöner, G.
In 2011 IEEE International Conference on Robotics and Automation, ICRA2011

@inproceedings{ReimannIossifidisSchöner2011, author = {Reimann, Hendrik and Iossifidis, Ioannis and Schöner, Gregor}, title = {Autonomous movement generation for manipulators with multiple simultaneous constraints using the attractor dynamics approach}, booktitle = {2011 IEEE International Conference on Robotics and Automation, ICRA2011}, year = {2011}, }

Reimann, H., Iossifidis, I., & Schöner, G.. (2011). Autonomous movement generation for manipulators with multiple simultaneous constraints using the attractor dynamics approach. In 2011 IEEE International Conference on Robotics and Automation, ICRA2011.
A neural-dynamic architecture for behavioral organization of an embodied agent
Sandamirskaya, Y., Richter, M., & Schöner, G.
In IEEE International Conference on Development and Learning and on Epigenetic Robotics (ICDL EPIROB 2011) (pp. 1–7)

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@inproceedings{SandamirskayaRichterSchöner2011, author = {Sandamirskaya, Yulia and Richter, Mathis and Schöner, Gregor}, title = {A neural-dynamic architecture for behavioral organization of an embodied agent}, booktitle = {IEEE International Conference on Development and Learning and on Epigenetic Robotics (ICDL EPIROB 2011)}, pages = {1–7}, year = {2011}, }

Sandamirskaya, Y., Richter, M., & Schöner, G.. (2011). A neural-dynamic architecture for behavioral organization of an embodied agent. In IEEE International Conference on Development and Learning and on Epigenetic Robotics (ICDL EPIROB 2011) (pp. 1–7).
Motor equivalence and self-motion induced by different movement speeds
Scholz, J. P., Dwight-Higgin, T., Lynch, J. E., Tseng, Y. -W., Martin, V., & Schöner, G.
Experimental Brain Research, 209(3), 319–332

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@article{ScholzDwight-HigginLynchEtAl2011, author = {Scholz, J P and Dwight-Higgin, T and Lynch, JE and Tseng, Y-W and Martin, V and Schöner, G}, title = {Motor equivalence and self-motion induced by different movement speeds}, journal = {Experimental Brain Research}, volume = {209}, number = {3}, pages = {319–332}, year = {2011}, doi = {10.1007/s00221-011-2541-2}, }

Scholz, J. P., Dwight-Higgin, T., Lynch, J. E., Tseng, Y. -W., Martin, V., & Schöner, G.. (2011). Motor equivalence and self-motion induced by different movement speeds. Experimental Brain Research, 209(3), 319–332. http://doi.org/10.1007/s00221-011-2541-2
Dynamic Neural Fields as Building Blocks of a Cortex-Inspired Architecture for Robotic Scene Representation
Zibner, S. K. U., Faubel, C., Iossifidis, I., & Schöner, G.
IEEE Transactions on Autonomous Mental Development, 3(1), 74–91

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@article{ZibnerFaubelIossifidisEtAl2011, author = {Zibner, Stephan K. U. and Faubel, Christian and Iossifidis, Ioannis and Schöner, Gregor}, title = {Dynamic Neural Fields as Building Blocks of a Cortex-Inspired Architecture for Robotic Scene Representation}, journal = {IEEE Transactions on Autonomous Mental Development}, volume = {3}, number = {1}, pages = {74–91}, year = {2011}, }

Zibner, S. K. U., Faubel, C., Iossifidis, I., & Schöner, G.. (2011). Dynamic Neural Fields as Building Blocks of a Cortex-Inspired Architecture for Robotic Scene Representation. IEEE Transactions on Autonomous Mental Development, 3(1), 74–91.
Making a robotic scene representation accessible to feature and label queries
Zibner, S. K. U., Faubel, C., & Schöner, G.
In Proceedings of the First Joint IEEE International Conference on Development and Learning and on Epigenetic Robotics (ICDL EPIROB 2011)

@inproceedings{ZibnerFaubelSchöner2011, author = {Zibner, Stephan K. U. and Faubel, Christian and Schöner, Gregor}, title = {Making a robotic scene representation accessible to feature and label queries}, booktitle = {Proceedings of the First Joint IEEE International Conference on Development and Learning and on Epigenetic Robotics (ICDL EPIROB 2011)}, year = {2011}, }

Zibner, S. K. U., Faubel, C., & Schöner, G.. (2011). Making a robotic scene representation accessible to feature and label queries. In Proceedings of the First Joint IEEE International Conference on Development and Learning and on Epigenetic Robotics (ICDL EPIROB 2011).

2010

Motor Abundance Contributes to Resolving Multiple Kinematic Task Constraints
Gera, G., Freitas, S., Latash, M., Monahan, K., Schöner, G., & Scholz, J.
Motor Control, 14, 83–115

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@article{GeraFreitasLatashEtAl2010, author = {Gera, G and Freitas, S and Latash, M and Monahan, K and Schöner, G and Scholz, J}, title = {Motor Abundance Contributes to Resolving Multiple Kinematic Task Constraints}, journal = {Motor Control}, volume = {14}, pages = {83–115}, year = {2010}, }

Gera, G., Freitas, S., Latash, M., Monahan, K., Schöner, G., & Scholz, J. (2010). Motor Abundance Contributes to Resolving Multiple Kinematic Task Constraints. Motor Control, 14, 83–115.
Measuring Perceptual Hysteresis with the Modified Method of Limits: Dynamics at the Threshold
Hock, H. S., & Schöner, G.
Seeing and Perceiving, 23, 173–195

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@article{HockSchöner2010, author = {Hock, H S and Schöner, G}, title = {Measuring Perceptual Hysteresis with the Modified Method of Limits: Dynamics at the Threshold}, journal = {Seeing and Perceiving}, volume = {23}, pages = {173–195}, year = {2010}, }

Hock, H. S., & Schöner, G.. (2010). Measuring Perceptual Hysteresis with the Modified Method of Limits: Dynamics at the Threshold. Seeing and Perceiving, 23, 173–195.
Motor control theories and their applications
Latash, M., Levin, M. F., Scholz, J. P., & Schöner, G.
Medicina (Kaunas), 29(6), 997–1003

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@article{LatashLevinScholzEtAl2010, author = {Latash, M. and Levin, M. F. and Scholz, J. P. and Schöner, G}, title = {Motor control theories and their applications}, journal = {Medicina (Kaunas)}, volume = {29}, number = {6}, pages = {997–1003}, year = {2010}, doi = {10.1016/j.biotechadv.2011.08.021.Secreted}, }

Latash, M., Levin, M. F., Scholz, J. P., & Schöner, G.. (2010). Motor control theories and their applications. Medicina (Kaunas), 29(6), 997–1003. http://doi.org/10.1016/j.biotechadv.2011.08.021.Secreted
Natural human-robot interaction through spatial language: a dynamic neural fields approach
Sandamirskaya, Y., Lipinski, J., Iossifidis, I., & Schöner, G.
In 19th IEEE International Symposium on Robot and Human Interactive Communication, RO-MAN (pp. 600–607) Viareggio, Italy

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@inproceedings{SandamirskayaLipinskiIossifidisEtAl2010, author = {Sandamirskaya, Y. and Lipinski, J. and Iossifidis, I. and Schöner, G.}, title = {Natural human-robot interaction through spatial language: a dynamic neural fields approach}, booktitle = {19th IEEE International Symposium on Robot and Human Interactive Communication, RO-MAN}, pages = {600–607}, address = {Viareggio, Italy}, year = {2010}, doi = {10.1109/ROMAN.2010.5598671}, }

Sandamirskaya, Y., Lipinski, J., Iossifidis, I., & Schöner, G.. (2010). Natural human-robot interaction through spatial language: a dynamic neural fields approach. In 19th IEEE International Symposium on Robot and Human Interactive Communication, RO-MAN (pp. 600–607). Viareggio, Italy. http://doi.org/10.1109/ROMAN.2010.5598671
An embodied account of serial order: how instabilities drive sequence generation
Sandamirskaya, Y., & Schöner, G.
Neural Networks, 23(10), 1164–1179

pdf

@article{SandamirskayaSchöner2010, author = {Sandamirskaya, Yulia and Schöner, Gregor}, title = {An embodied account of serial order: how instabilities drive sequence generation}, journal = {Neural Networks}, volume = {23}, number = {10}, pages = {1164–1179}, year = {2010}, doi = {DOI: 10.1016/j.neunet.2010.07.012}, }

Sandamirskaya, Y., & Schöner, G.. (2010). An embodied account of serial order: how instabilities drive sequence generation. Neural Networks, 23(10), 1164–1179. http://doi.org/DOI: 10.1016/j.neunet.2010.07.012
Serial order in an acting system: a multidimensional dynamic neural fields implementation
Sandamirskaya, Y., & Schöner, G.
In Development and Learning, 2010. ICDL 2010. 9th IEEE International Conference on

pdf

@inproceedings{SandamirskayaSchöner2010b, author = {Sandamirskaya, Y. and Schöner, G.}, title = {Serial order in an acting system: a multidimensional dynamic neural fields implementation}, booktitle = {Development and Learning, 2010. ICDL 2010. 9th IEEE International Conference on}, year = {2010}, }

Sandamirskaya, Y., & Schöner, G.. (2010). Serial order in an acting system: a multidimensional dynamic neural fields implementation. In Development and Learning, 2010. ICDL 2010. 9th IEEE International Conference on.
Scene Representation for Anthropomorphic Robots: A Dynamic Neural Field Approach
Zibner, S. K. U., Faubel, C., Iossifidis, I., & Schöner, G.
In ISR / ROBOTIK 2010 Munich, Germany

@inproceedings{ZibnerFaubelIossifidisEtAl2010, author = {Zibner, S. K. U. and Faubel, C. and Iossifidis, I. and Schöner, G.}, title = {Scene Representation for Anthropomorphic Robots: A Dynamic Neural Field Approach}, booktitle = {ISR / ROBOTIK 2010}, address = {Munich, Germany}, year = {2010}, }

Zibner, S. K. U., Faubel, C., Iossifidis, I., & Schöner, G.. (2010). Scene Representation for Anthropomorphic Robots: A Dynamic Neural Field Approach. In ISR / ROBOTIK 2010. Munich, Germany.
Scenes and tracking with dynamic neural fields: How to update a robotic scene representation
Zibner, S. K. U., Faubel, C., Iossifidis, I., Schöner, G., & Spencer, J. P.
In Development and Learning (ICDL), 2010 IEEE 9th International Conference on (pp. 244–250) IEEE

@inproceedings{ZibnerFaubelIossifidisEtAl2010b, author = {Zibner, Stephan K. U. and Faubel, Christian and Iossifidis, Ioannis and Schöner, Gregor and Spencer, John P.}, title = {Scenes and tracking with dynamic neural fields: How to update a robotic scene representation}, booktitle = {Development and Learning (ICDL), 2010 IEEE 9th International Conference on}, pages = {244–250}, organization = {IEEE}, year = {2010}, }

Zibner, S. K. U., Faubel, C., Iossifidis, I., Schöner, G., & Spencer, J. P. (2010). Scenes and tracking with dynamic neural fields: How to update a robotic scene representation. In Development and Learning (ICDL), 2010 IEEE 9th International Conference on (pp. 244–250). IEEE.

2009

A layered neural architecture for the consolidation, maintenance, and updating of representations in visual working memory.
Johnson, J. S., Spencer, J. P., & Schöner, G.
Brain research, 1299, 17–32

pdf

@article{JohnsonSpencerSchöner2009, author = {Johnson, Jeffrey S and Spencer, John P and Schöner, Gregor}, title = {A layered neural architecture for the consolidation, maintenance, and updating of representations in visual working memory.}, journal = {Brain research}, volume = {1299}, pages = {17–32}, month = {November}, year = {2009}, doi = {10.1016/j.brainres.2009.07.008}, }

Johnson, J. S., Spencer, J. P., & Schöner, G.. (2009). A layered neural architecture for the consolidation, maintenance, and updating of representations in visual working memory. Brain research, 1299, 17–32. http://doi.org/10.1016/j.brainres.2009.07.008
A layered neural architecture for the consolidation, maintenance, and updating of representations in visual working memory.
Johnson, J. S., Spencer, J. P., & Schöner, G.
Brain research, 1299, 17–32

pdf

@article{JohnsonSpencerSchöner2009b, author = {Johnson, Jeffrey S and Spencer, John P and Schöner, Gregor}, title = {A layered neural architecture for the consolidation, maintenance, and updating of representations in visual working memory.}, journal = {Brain research}, volume = {1299}, pages = {17–32}, month = {November}, year = {2009}, doi = {10.1016/j.brainres.2009.07.008}, }

Johnson, J. S., Spencer, J. P., & Schöner, G.. (2009). A layered neural architecture for the consolidation, maintenance, and updating of representations in visual working memory. Brain research, 1299, 17–32. http://doi.org/10.1016/j.brainres.2009.07.008

A counterchange mechanism for the perception of motion.

Hock, H. S., Schöner, G., & Gilroy, L.

Acta psychologica, 132(1), 1–21

@article{HockSchönerGilroy2009,
	author		=	{Hock, Howard S and Schöner, Gregor and Gilroy, Lee},
	title		=	{A counterchange mechanism for the perception of motion.},
	journal		=	{Acta psychologica},
	volume		=	{132},
	number		=	{1},
	pages		=	{1–21},
	month		=	{September},
	year		=	{2009},
	doi		=	{10.1016/j.actpsy.2009.06.006},
}

Swing it to the Left, Swing it to the Right: Enacting Flexible Spatial Language Using a Neurodynamic Framework
Lipinski, J., Sandamirskaya, Y., & Schöner, G.
Cognitive Neurodynamics, 3(4)

pdf

@article{LipinskiSandamirskayaSchöner2009, author = {Lipinski, J. and Sandamirskaya, Y. and Schöner, G.}, title = {Swing it to the Left, Swing it to the Right: Enacting Flexible Spatial Language Using a Neurodynamic Framework}, journal = {Cognitive Neurodynamics}, volume = {3}, number = {4}, year = {2009}, }

Lipinski, J., Sandamirskaya, Y., & Schöner, G.. (2009). Swing it to the Left, Swing it to the Right: Enacting Flexible Spatial Language Using a Neurodynamic Framework. Cognitive Neurodynamics, 3(4).
An Integrative Framework for Spatial Language and Color: Robotic Demonstrations Using the Dynamic Field Theory.
Lipinski, J., Sandamirskaya, Y., & Schöner, G.
In 31th Annual Meeting of the Cognitive Science Society, CogSci 2009 Amstredam, NL

pdf

@inproceedings{LipinskiSandamirskayaSchöner2009b, author = {Lipinski, J. and Sandamirskaya, Y. and Schöner, G.}, title = {An Integrative Framework for Spatial Language and Color: Robotic Demonstrations Using the Dynamic Field Theory.}, booktitle = {31th Annual Meeting of the Cognitive Science Society, CogSci 2009}, address = {Amstredam, NL}, year = {2009}, }

Lipinski, J., Sandamirskaya, Y., & Schöner, G.. (2009). An Integrative Framework for Spatial Language and Color: Robotic Demonstrations Using the Dynamic Field Theory. In 31th Annual Meeting of the Cognitive Science Society, CogSci 2009. Amstredam, NL.
Behaviorally Flexible Spatial Communication: Robotic Demonstrations of a Neurodynamic Framework
Lipinski, J., Sandamirskaya, Y., & Schöner, G.
In B. Mertsching, Hund, M., & Z., A. (Eds.), KI 2009, Lecture Notes in Artificial Intelligence (Vol. 5803, pp. 257–264) Berlin: Springer-Verlag

pdf

@conference{LipinskiSandamirskayaSchöner2009c, author = {Lipinski, J. and Sandamirskaya, Y. and Schöner, G.}, title = {Behaviorally Flexible Spatial Communication: Robotic Demonstrations of a Neurodynamic Framework}, booktitle = {KI 2009, Lecture Notes in Artificial Intelligence}, editor = {Mertsching, B. and Hund, M. and Z., Aziz}, volume = {5803}, pages = {257–264}, publisher = {Berlin: Springer-Verlag}, year = {2009}, }

Lipinski, J., Sandamirskaya, Y., & Schöner, G.. (2009). Behaviorally Flexible Spatial Communication: Robotic Demonstrations of a Neurodynamic Framework. In B. Mertsching, Hund, M., & Z., A. (Eds.), KI 2009, Lecture Notes in Artificial Intelligence (Vol. 5803, pp. 257–264). Berlin: Springer-Verlag.
Redundancy, self-motion and motor control
Martin, V., Scholz, J. P., & Schöner, G.
Neural Computation, 21(5), 1371–1414

pdf

@article{MartinScholzSchöner2009, author = {Martin, V and Scholz, J P and Schöner, G}, title = {Redundancy, self-motion and motor control}, journal = {Neural Computation}, volume = {21}, number = {5}, pages = {1371–1414}, year = {2009}, }

Martin, V., Scholz, J. P., & Schöner, G.. (2009). Redundancy, self-motion and motor control. Neural Computation, 21(5), 1371–1414.
Temporal stabilization of discrete movement in variable environments: an attractor dynamics approach
Tuma, M., Iossifidis, I., & Schöner, G.
In IEEE International Conference on Robotics and Automation (ICRA) (pp. 863–868)

pdf

@inproceedings{TumaIossifidisSchöner2009, author = {Tuma, M and Iossifidis, I and Schöner, G}, title = {Temporal stabilization of discrete movement in variable environments: an attractor dynamics approach}, booktitle = {IEEE International Conference on Robotics and Automation (ICRA)}, pages = {863–868}, year = {2009}, }

Tuma, M., Iossifidis, I., & Schöner, G.. (2009). Temporal stabilization of discrete movement in variable environments: an attractor dynamics approach. In IEEE International Conference on Robotics and Automation (ICRA) (pp. 863–868).

2008

Dynamic Field Theory as a framework for understanding embodied cognition
Schneegans, S., & Schöner, G.
In P. Calvo & Gomila, T. (Eds.), Handbook of cognitive science: An embodied approach (pp. 241–271) Amsterdam, Netherlands: Elsevier

pdf

@inproceedings{SchneegansSchöner2008, author = {Schneegans, Sebastian and Schöner, Gregor}, title = {Dynamic Field Theory as a framework for understanding embodied cognition}, booktitle = {Handbook of cognitive science: An embodied approach}, editor = {Calvo, P and Gomila, T}, pages = {241–271}, publisher = {Elsevier}, address = {Amsterdam, Netherlands}, year = {2008}, }

Schneegans, S., & Schöner, G.. (2008). Dynamic Field Theory as a framework for understanding embodied cognition. In P. Calvo & Gomila, T. (Eds.), Handbook of cognitive science: An embodied approach (pp. 241–271). Amsterdam, Netherlands: Elsevier.

2004

Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortex
Jancke, D., Erlhagen, W., Schöner, G., & Dinse, H. R.
The Journal of Physiology, 556(3), 971–982

@article{JanckeErlhagenSchönerEtAl2004, author = {Jancke, Dirk and Erlhagen, Wolfram and Schöner, Gregor and Dinse, Hubert R}, title = {Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortex}, journal = {The Journal of Physiology}, volume = {556}, number = {3}, pages = {971–982}, year = {2004}, }

Jancke, D., Erlhagen, W., Schöner, G., & Dinse, H. R.. (2004). Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortex. The Journal of Physiology, 556(3), 971–982.

2002

Timing, Clocks, and Dynamical Systems
Schöner, G.
Brain and Cognition, 48, 31–51

reprint

@article{Schöner2002, author = {Schöner, Gregor}, title = {Timing, Clocks, and Dynamical Systems}, journal = {Brain and Cognition}, volume = {48}, pages = {31–51}, year = {2002}, doi = {10.1006/brcg.2001.1302}, }

Schöner, G. (2002). Timing, Clocks, and Dynamical Systems. Brain and Cognition, 48, 31–51. http://doi.org/10.1006/brcg.2001.1302

2000

Target representation on an autonomous vehicle with low-level sensors
Bicho, E., Mallet, P., & Schöner, G.
The International Journal of Robotics Research, 19, 424–447

reprint

@article{BichoMalletSchöner2000, author = {Bicho, E and Mallet, P and Schöner, G}, title = {Target representation on an autonomous vehicle with low-level sensors}, journal = {The International Journal of Robotics Research}, volume = {19}, pages = {424–447}, year = {2000}, }

Bicho, E., Mallet, P., & Schöner, G.. (2000). Target representation on an autonomous vehicle with low-level sensors. The International Journal of Robotics Research, 19, 424–447.

1999

The distribution of neuronal population activation (DPA) as a tool to study interaction and integration in cortical representations
Erlhagen, W., Bastian, A., Jancke, D., Riehle, A., & Schöner, G.
Journal of Neuroscience Methods, 94(1), 53–66

@article{ErlhagenBastianJanckeEtAl1999, author = {Erlhagen, Wolfram and Bastian, Annette and Jancke, Dirk and Riehle, Alexa and Schöner, Gregor}, title = {The distribution of neuronal population activation (DPA) as a tool to study interaction and integration in cortical representations}, journal = {Journal of Neuroscience Methods}, volume = {94}, number = {1}, pages = {53–66}, year = {1999}, }

Erlhagen, W., Bastian, A., Jancke, D., Riehle, A., & Schöner, G.. (1999). The distribution of neuronal population activation (DPA) as a tool to study interaction and integration in cortical representations. Journal of Neuroscience Methods, 94(1), 53–66.
Parametric population representation of retinal location: Neuronal interaction dynamics in cat primary visual cortex
Jancke, D., Erlhagen, W., Dinse, H. R., Akhavan, A. C., Giese, M., Steinhage, A., & Schöner, G.
J Neurosci, 19(20), 9016–9028

@article{JanckeErlhagenDinseEtAl1999, author = {Jancke, Dirk and Erlhagen, Wolfram and Dinse, Hubert R and Akhavan, Amir C and Giese, Martin and Steinhage, Axel and Schöner, Gregor}, title = {Parametric population representation of retinal location: Neuronal interaction dynamics in cat primary visual cortex}, journal = {J Neurosci}, volume = {19}, number = {20}, pages = {9016–9028}, year = {1999}, }

Jancke, D., Erlhagen, W., Dinse, H. R., Akhavan, A. C., Giese, M., Steinhage, A., & Schöner, G.. (1999). Parametric population representation of retinal location: Neuronal interaction dynamics in cat primary visual cortex. J Neurosci, 19(20), 9016–9028.

1998

Using attractor dynamics to control autonomous vehicle motion
Bicho, E., Mallet, P., & Schöner, G.
In Proceedings of IECON′98 (pp. 1176–1181) IEEE Industrial Electronics Society

reprint

@inproceedings{BichoMalletSchöner1998, author = {Bicho, E and Mallet, P and Schöner, G}, title = {Using attractor dynamics to control autonomous vehicle motion}, booktitle = {Proceedings of IECON′98}, pages = {1176–1181}, publisher = {IEEE Industrial Electronics Society}, year = {1998}, }

Bicho, E., Mallet, P., & Schöner, G.. (1998). Using attractor dynamics to control autonomous vehicle motion. In Proceedings of IECON′98 (pp. 1176–1181). IEEE Industrial Electronics Society.

1997

The dynamic approach to autonomous robotics demonstrated on a low-level vehicle platform
Bicho, E., & Schöner, G.
Robotics and autonomous systems, 21, 23–35

reprint

@article{BichoSchöner1997, author = {Bicho, E and Schöner, G}, title = {The dynamic approach to autonomous robotics demonstrated on a low-level vehicle platform}, journal = {Robotics and autonomous systems}, volume = {21}, pages = {23–35}, year = {1997}, }

Bicho, E., & Schöner, G.. (1997). The dynamic approach to autonomous robotics demonstrated on a low-level vehicle platform. Robotics and autonomous systems, 21, 23–35.

1996

Population coding in cat visual cortex reveals nonlinear interactions as predicted by a neural field model
Jancke, D., Akhavan, A. C., Erlhagen, W., Giese, M., Steinhage, A., Schöner, G., & Dinse, H. R.
In Artificial Neural Networks — ICANN 96 (pp. 641–648) Springer Berlin Heidelberg

@incollection{JanckeAkhavanErlhagenEtAl1996, author = {Jancke, Dirk and Akhavan, Amir C. and Erlhagen, Wolfram and Giese, Martin and Steinhage, Axel and Schöner, Gregor and Dinse, Hubert R.}, title = {Population coding in cat visual cortex reveals nonlinear interactions as predicted by a neural field model}, booktitle = {Artificial Neural Networks — ICANN 96}, pages = {641–648}, publisher = {Springer Berlin Heidelberg}, year = {1996}, doi = {10.1007/3-540-61510-5_109}, }

Jancke, D., Akhavan, A. C., Erlhagen, W., Giese, M., Steinhage, A., Schöner, G., & Dinse, H. R.. (1996). Population coding in cat visual cortex reveals nonlinear interactions as predicted by a neural field model. In Artificial Neural Networks — ICANN 96 (pp. 641–648). Springer Berlin Heidelberg. http://doi.org/10.1007/3-540-61510-5_109

1995

Dynamics of behavior: Theory and applications for autonomous robot architectures
Schöner, G., Dose, M., & Engels, C.
Robotics and Autonomous Systems, 16, 213–245

SchonerDoseEngels95.pdf

@article{SchönerDoseEngels1995, author = {Schöner, G and Dose, M and Engels, C}, title = {Dynamics of behavior: Theory and applications for autonomous robot architectures}, journal = {Robotics and Autonomous Systems}, volume = {16}, pages = {213–245}, year = {1995}, }

Schöner, G., Dose, M., & Engels, C. (1995). Dynamics of behavior: Theory and applications for autonomous robot architectures. Robotics and Autonomous Systems, 16, 213–245.

1986

A stochastic theory of phase transitions in human hand movement
Schöner, G., Haken, H., & Kelso, J. A. S.
Biological Cybernetics, 53, 247–257

pdf bib

@article{SchönerHakenKelso1986, author = {Schöner, G and Haken, H and Kelso, J A S}, title = {A stochastic theory of phase transitions in human hand movement}, journal = {Biological Cybernetics}, volume = {53}, pages = {247–257}, year = {1986}, }

Schöner, G., Haken, H., & Kelso, J. A. S. (1986). A stochastic theory of phase transitions in human hand movement. Biological Cybernetics, 53, 247–257.

Summer Term 2025

Seminars	Advanced Topics in Neural Dynamics
Lectures	Autonomous Robotics: Action, Perception, and Cognition
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics

Winter Term 2024/2025

Seminars	Advanced Topics in Neural Dynamics
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics

Summer Term 2024

Seminars	Advanced Topics in Neural Dynamics
Lectures	Autonomous Robotics: Action, Perception, and Cognition
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics

Winter Term 2023/2024

Seminars	Advanced Topics in Neural Dynamics
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics

Summer Term 2023

Seminars	Advanced Topics in Neural Dynamics
Lectures	Autonomous Robotics: Action, Perception, and Cognition
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics
Tutorial	INI retreat

Winter Term 2022/2023

Seminars	Advanced Topics in Neural Dynamics
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics

Summer Term 2022

Seminars	Advanced Topics in Neural Dynamics
Lectures	Autonomous Robotics: Action, Perception, and Cognition
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics

Winter Term 2021/2022

Seminars	Advanced Topics in Neural Dynamics
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics

Summer Term 2021

Seminars	Advanced Topics in Neural Dynamics
Lectures	Autonomous Robotics: Action, Perception, and Cognition
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics

Winter Term 2020/2021

Seminars	Advanced Topics in Neural Dynamics
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics

Summer Term 2020

Seminars	Advanced Topics in Neural Dynamics
Lectures	Autonomous Robotics: Action, Perception, and Cognition
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics

Winter Term 2019/2020

Seminars	Advanced Topics in Neural Dynamics
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics

Summer Term 2019

Seminars	Advanced Topics in Neural Dynamics
Lectures	Autonomous Robotics: Action, Perception, and Cognition
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics

Winter Term 2018/2019

Seminars	Advanced Topics in Neural Dynamics
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics

Summer Term 2018

Lectures	Autonomous Robotics: Action, Perception, and Cognition
Seminars	Colloquium: Current Topics in Neuroinformatics
Seminars	Methods of Neuroinformatics

Winter Term 2017/2018

Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics
Seminars	Methods of Neuroinformatics II

Summer Term 2017

Lectures	Autonomous Robotics: Action, Perception, and Cognition
Seminars	Colloquium: Current Topics in Neuroinformatics
Seminars	Methods of Neuroinformatics

Winter Term 2016/2017

Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics
Seminars	Methods of Neuroinformatics II

Summer Term 2016

Seminars	Colloquium: Current topics in Neuroinformatics
Seminars	Methods of Neuroinformatics
Lectures	Movement generation by Humans and Robots: a dynamical systems perspective

Winter Term 2015/2016

Seminars	Colloquium: Current Topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics
Seminars	Methods of Neuroinformatics II

Summer Term 2015

Lectures	Autonomous Robotics: Action, Perception, and Cognition
Lab courses	Autonomous Robotics
Seminars	Colloquium: Current topics in Neuroinformatics
Seminars	Methods of Neuroinformatics

Winter Term 2014/2015

Seminars	Colloquium: Current topics in Neuroinformatics
Lectures	Computational Neuroscience: Neural Dynamics
Seminars	Methods of Neuroinformatics II

Summer Term 2024

Lectures

Introduction to Artificial Intelligence

Summer Term 2023

Lectures

Introduction to Artificial Intelligence

Summer Term 2022

Lectures

Introduction to Artificial Intelligence

Summer Term 2021

Lectures

Introduction to Artificial Intelligence

2018

An embodied account of spatial language grounding
Lins, J.
Doctoral thesis, Fakultät für Psychologie, Ruhr-Universität Bochum

@phdthesis{Lins2018, author = {Lins, Jonas}, title = {An embodied account of spatial language grounding}, school = {Fakultät für Psychologie, Ruhr-Universität Bochum}, year = {2018}, }

Lins, J. (2018). An embodied account of spatial language grounding. Doctoral thesis, Fakultät für Psychologie, Ruhr-Universität Bochum.
A neural dynamic model for the perceptual grounding of spatial and movement relations
Richter, M.
Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum

@phdthesis{Richter2018, author = {Richter, Mathis}, title = {A neural dynamic model for the perceptual grounding of spatial and movement relations}, school = {Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum}, year = {2018}, }

Richter, M. (2018). A neural dynamic model for the perceptual grounding of spatial and movement relations. Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum.
Sensorbasiertes Parkleitsystem mit Umfelderfassung zur Navigation und Belegungserkennung einzelner Parkplätze
Tschentscher, M. P.
Doctoral thesis, Electrical Engineering, Ruhr University Bochum, Germany

@phdthesis{Tschentscher2018, author = {Tschentscher, Marc Philipp}, title = {Sensorbasiertes Parkleitsystem mit Umfelderfassung zur Navigation und Belegungserkennung einzelner Parkplätze}, school = {Electrical Engineering, Ruhr University Bochum, Germany}, year = {2018}, }

Tschentscher, M. P. (2018). Sensorbasiertes Parkleitsystem mit Umfelderfassung zur Navigation und Belegungserkennung einzelner Parkplätze. Doctoral thesis, Electrical Engineering, Ruhr University Bochum, Germany.

2017

Koartikulation bei menschlichen Armbewegungen
Hansen, E.
Doctoral thesis, Fakultät für Biologie und Biotechnologie, Ruhr-Universität Bochum

@phdthesis{Hansen2017, author = {Hansen, Eva}, title = {Koartikulation bei menschlichen Armbewegungen}, school = {Fakultät für Biologie und Biotechnologie, Ruhr-Universität Bochum}, year = {2017}, }

Hansen, E. (2017). Koartikulation bei menschlichen Armbewegungen. Doctoral thesis, Fakultät für Biologie und Biotechnologie, Ruhr-Universität Bochum.
Künstliche Wahrnehmung auf Basis ortsfester Sensoren
Ibisch, A.
Doctoral thesis, ETIT, Ruhr University Bochum, Germany

@phdthesis{Ibisch2017, author = {Ibisch, André}, title = {Künstliche Wahrnehmung auf Basis ortsfester Sensoren}, school = {ETIT, Ruhr University Bochum, Germany}, year = {2017}, }

Ibisch, A. (2017). Künstliche Wahrnehmung auf Basis ortsfester Sensoren. Doctoral thesis, ETIT, Ruhr University Bochum, Germany.
A Neurodynamic Model for Haptic Spatiotemporal Integration
Strub, C.
Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum

Dissertation

@phdthesis{Strub2017, author = {Strub, Claudius}, title = {A Neurodynamic Model for Haptic Spatiotemporal Integration}, school = {Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum}, year = {2017}, }

Strub, C. (2017). A Neurodynamic Model for Haptic Spatiotemporal Integration. Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum.

2016

Cognitive object recognition based on dynamic field theory
Lomp, O.
Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum

Dissertation

@phdthesis{Lomp2016, author = {Lomp, Oliver}, title = {Cognitive object recognition based on dynamic field theory}, school = {Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum}, year = {2016}, }

Lomp, O. (2016). Cognitive object recognition based on dynamic field theory. Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum.

2015

Bildverarbeitende Algorithmen zur Fahrerassistenz mit Weitwinkelkameras
Houben, S.
Doctoral thesis, ETIT, Ruhr University Bochum, Germany

@phdthesis{Houben2015, author = {Houben, Sebastian}, title = {Bildverarbeitende Algorithmen zur Fahrerassistenz mit Weitwinkelkameras}, school = {ETIT, Ruhr University Bochum, Germany}, year = {2015}, }

Houben, S. (2015). Bildverarbeitende Algorithmen zur Fahrerassistenz mit Weitwinkelkameras. Doctoral thesis, ETIT, Ruhr University Bochum, Germany.
A Neuro-Dynamic Architecture for Autonomous Visual Scene Representation
Zibner, S. K. U.
Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum

Dissertation

@phdthesis{Zibner2015, author = {Zibner, Stephan Klaus Ulrich}, title = {A Neuro-Dynamic Architecture for Autonomous Visual Scene Representation}, school = {Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum}, year = {2015}, }

Zibner, S. K. U. (2015). A Neuro-Dynamic Architecture for Autonomous Visual Scene Representation. Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik, Ruhr-Universität Bochum.

2014

Framework zur Entwicklung, Bewertung und Analyse von Computer-Vision-Anwendungen im Kontext umfelderfassender Fahrerassistenzsysteme
Stallkamp, J.
Doctoral thesis, Electrical Engineering, Univ. of Bochum, Germany

@phdthesis{Stallkamp2014, author = {Stallkamp, Johannes}, title = {Framework zur Entwicklung, Bewertung und Analyse von Computer-Vision-Anwendungen im Kontext umfelderfassender Fahrerassistenzsysteme}, school = {Electrical Engineering, Univ. of Bochum, Germany}, month = {October}, year = {2014}, }

Stallkamp, J. (2014, October). Framework zur Entwicklung, Bewertung und Analyse von Computer-Vision-Anwendungen im Kontext umfelderfassender Fahrerassistenzsysteme. Doctoral thesis, Electrical Engineering, Univ. of Bochum, Germany. Retrieved from http://www-brs.ub.ruhr-uni-bochum.de/netahtml/HSS/Diss/StallkampJohannes/diss.pdf
Nachweis und Analyse elementarer Invarianten als Bausteine menschlicher Armbewegungen
Gimme, B.
Doctoral thesis, Fakultät für Biologie und Biotechnologie Ruhr-Universität Bochum

@phdthesis{Gimme2014, author = {Gimme, Britta}, title = {Nachweis und Analyse elementarer Invarianten als Bausteine menschlicher Armbewegungen}, school = {Fakultät für Biologie und Biotechnologie Ruhr-Universität Bochum}, year = {2014}, }

Gimme, B. (2014). Nachweis und Analyse elementarer Invarianten als Bausteine menschlicher Armbewegungen. Doctoral thesis, Fakultät für Biologie und Biotechnologie Ruhr-Universität Bochum.
Autonomous generation and on-line updating of sequences of timed robotic actions: an attractor dynamics approach
Oubbati, F.
Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum

Dissertation

@phdthesis{Oubbati2014, author = {Oubbati, Farid}, title = {Autonomous generation and on-line updating of sequences of timed robotic actions: an attractor dynamics approach}, school = {Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum}, year = {2014}, }

Oubbati, F. (2014). Autonomous generation and on-line updating of sequences of timed robotic actions: an attractor dynamics approach. Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum.
Videobasierte Leistungserfassung im Fußball
Schlipsing, M.
Doctoral thesis, Ruhr-Universität Bochum

@phdthesis{Schlipsing2014, author = {Schlipsing, Marc}, title = {Videobasierte Leistungserfassung im Fußball}, school = {Ruhr-Universität Bochum}, year = {2014}, }

Schlipsing, M. (2014). Videobasierte Leistungserfassung im Fußball. Doctoral thesis, Ruhr-Universität Bochum.
Dynamic Field Theory of Visuospatial Cognition
Schneegans, S.
Doctoral thesis, Fakultät Elektrotechnik und Informationstechnik Ruhr-Universität Bochum

@phdthesis{Schneegans2014, author = {Schneegans, Sebastian}, title = {Dynamic Field Theory of Visuospatial Cognition}, school = {Fakultät Elektrotechnik und Informationstechnik Ruhr-Universität Bochum}, year = {2014}, }

Schneegans, S. (2014). Dynamic Field Theory of Visuospatial Cognition. Doctoral thesis, Fakultät Elektrotechnik und Informationstechnik Ruhr-Universität Bochum.

2013

Principles of selective stabilization in high-dimensional state spaces: statistical concepts, dynamic modeling and robotics
Reimann, H.
Doctoral thesis, Fakutlät f¨ür Mathematik, Ruhr-Universität Bochum

@phdthesis{Reimann2013, author = {Reimann, Hendrik}, title = {Principles of selective stabilization in high-dimensional state spaces: statistical concepts, dynamic modeling and robotics}, school = {Fakutlät f¨ür Mathematik, Ruhr-Universität Bochum}, year = {2013}, }

Reimann, H. (2013). Principles of selective stabilization in high-dimensional state spaces: statistical concepts, dynamic modeling and robotics. Doctoral thesis, Fakutlät f¨ür Mathematik, Ruhr-Universität Bochum.

2010

Sequence generation in Dynamic Field Theory
Sandamirskaya, Y.
Doctoral thesis, Fakultät für Physik und Astronomie Ruhr-Universität Bochum

@phdthesis{Sandamirskaya2010, author = {Sandamirskaya, Yulia}, title = {Sequence generation in Dynamic Field Theory}, school = {Fakultät für Physik und Astronomie Ruhr-Universität Bochum}, year = {2010}, }

Sandamirskaya, Y. (2010). Sequence generation in Dynamic Field Theory. Doctoral thesis, Fakultät für Physik und Astronomie Ruhr-Universität Bochum.

2009

Object recognition with dynamic neural fields
Faubel, C.
Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum

@phdthesis{Faubel2009, author = {Faubel, Christian}, title = {Object recognition with dynamic neural fields}, school = {Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum}, year = {2009}, }

Faubel, C. (2009). Object recognition with dynamic neural fields. Doctoral thesis, Fakultät für Elektrotechnik und Informationstechnik Ruhr-Universität Bochum.

About the INI

The Institut für Neuroinformatik (INI) is a research unit of the Faculty of Computer Science at the Ruhr-Universität Bochum. Its scientific goal is to understand the fundamental principles through which organisms generate behavior and cognition while linked to their environments through sensory and effector systems. Inspired by our insights into such natural cognitive systems, we seek new solutions to problems of information processing in artificial cognitive systems. We draw from a variety of disciplines that include experimental psychology and neurophysiology as well as machine learning, neural artificial intelligence, computer vision, and robotics.

Contact

Universitätsstr. 150, Building NB, Room 3/32
D-44801 Bochum, Germany

Tel: (+49) 234 32-28967
Fax: (+49) 234 32-14210

sekretariat@ini.rub.de
www.ini.rub.de