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Gregor Schöner: [Publications] [Author Rank by year] [Co-authors] [Prefers] [Cites] [Cited by]

Publications of Author

  1. Michael Dose, Gregor Schöner
    Closed Loop Autonomous Vehicle Path Planning by Dynamical Systems. [Citation Graph (0, 0)][DBLP]
    DAGM-Symposium, 1992, pp:316-322 [Conf]
  2. Martin A. Giese, Gregor Schöner, H. S. Hock
    Neural Field Dynamics for Motion Perception. [Citation Graph (0, 0)][DBLP]
    ICANN, 1996, pp:335-340 [Conf]
  3. Dirk Jancke, Amir C. Akhavan, Wolfram Erlhagen, Martin A. Giese, Axel Steinhage, Gregor Schöner, Hubert R. Dinse
    Population Coding in Cat Visual Cortex Reveals Nonlinear Interactions as Predicted by a Neural Field Model. [Citation Graph (0, 0)][DBLP]
    ICANN, 1996, pp:641-648 [Conf]
  4. Frédéric Danion, Gregor Schöner, Mark L. Latash, Sheng Li, John P. Scholz, Vladimir M. Zatsiorsky
    A mode hypothesis for finger interaction during multi-finger force-production tasks. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2003, v:88, n:2, pp:91-98 [Journal]
  5. Antonio Pellecchia, Christian Igel, Johann Edelbrunner, Gregor Schöner
    Making Driver Modeling Attractive. [Citation Graph (0, 0)][DBLP]
    IEEE Intelligent Systems, 2005, v:20, n:2, pp:8-12 [Journal]
  6. Estela Bicho, Pierre Mallet, Gregor Schöner
    Target Representation on an Autonomous Vehicle with Low-Level Sensors. [Citation Graph (0, 0)][DBLP]
    I. J. Robotic Res., 2000, v:19, n:5, pp:424-447 [Journal]
  7. Claudia Wilimzig, Stefan Schneider, Gregor Schöner
    The time course of saccadic decision making: Dynamic field theory. [Citation Graph (0, 0)][DBLP]
    Neural Networks, 2006, v:19, n:8, pp:1059-1074 [Journal]
  8. Estela Bicho, Gregor Schöner
    The dynamic approach to autonomous robotics demonstrated on a low-level vehicle platform. [Citation Graph (0, 0)][DBLP]
    Robotics and Autonomous Systems, 1997, v:21, n:1, pp:23-35 [Journal]
  9. Christoph Engels, Gregor Schöner
    Dynamic fields endow behavior-based robots with representations. [Citation Graph (0, 0)][DBLP]
    Robotics and Autonomous Systems, 1995, v:14, n:1, pp:55-77 [Journal]
  10. Gregor Schöner, Michael Dose
    A dynamical systems approach to task-level system integration used to plan and control autonomous vehicle motion. [Citation Graph (0, 0)][DBLP]
    Robotics and Autonomous Systems, 1992, v:10, n:4, pp:253-267 [Journal]
  11. Gregor Schöner, Michael Dose, Christoph Engels
    Dynamics of behavior: Theory and applications for autonomous robot architectures. [Citation Graph (0, 0)][DBLP]
    Robotics and Autonomous Systems, 1995, v:16, n:2-4, pp:213-245 [Journal]
  12. Axel Steinhage, Gregor Schöner
    Self-calibration based on invariant view recognition: Dynamic approach to navigation. [Citation Graph (0, 0)][DBLP]
    Robotics and Autonomous Systems, 1997, v:20, n:2-4, pp:133-156 [Journal]
  13. Ioannis Iossifidis, Gregor Schöner
    Autonomous Reaching and Obstacle Avoidance with the Anthropomorphic Arm of a Robotic Assistant using the Attractor Dynamics Approach. [Citation Graph (0, 0)][DBLP]
    ICRA, 2004, pp:4295-4300 [Conf]
  14. John P. Scholz, Frédéric Danion, Mark L. Latash, Gregor Schöner
    Understanding finger coordination through analysis of the structure of force variability. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2002, v:86, n:1, pp:29-39 [Journal]

  15. Temporal stabilization of discrete movement in variable environments: An attractor dynamics approach. [Citation Graph (, )][DBLP]

  16. Behaviorally Flexible Spatial Communication: Robotic Demonstrations of a Neurodynamic Framework. [Citation Graph (, )][DBLP]

  17. Dynamic Field Theory and Embodied Communication. [Citation Graph (, )][DBLP]

  18. Dynamical Systems Approach for the Autonomous Avoidance of Obstacles and Joint-limits for an Redundant Robot Arm. [Citation Graph (, )][DBLP]

  19. A neuro-dynamic architecture for one shot learning of objects that uses both bottom-up recognition and top-down prediction. [Citation Graph (, )][DBLP]

  20. Dynamics parametrically controlled by image correlations organize robot navigation. [Citation Graph (, )][DBLP]

  21. Identification of the nonlinear state-space dynamics of the action-perception cycle for visually induced postural sway. [Citation Graph (, )][DBLP]

  22. Identification of the nonlinear state-space dynamics of the action-perception cycle for visually induced postural sway. [Citation Graph (, )][DBLP]

  23. Saccadic motor planning by integrating visual information and pre-information on neural dynamic fields. [Citation Graph (, )][DBLP]

  24. Frequency dependence of the action-perception cycle for postural control in a moving visual environment: relative phase dynamics. [Citation Graph (, )][DBLP]

  25. Dynamic properties of cortical evoked (10 Hz) oscillations: theory and experiment. [Citation Graph (, )][DBLP]

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