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Dynamic Field Theory (DFT) is a theoretical framework of embodied cognition that is grounded in neurophysiology. Dynamic Fields formalize how neural populations represent the continuous dimensions that characterize perceptual features, movements, and cognitive decisions.
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Dynamic Field Theory (DFT) is a theoretical framework of embodied cognition that is grounded in neurophysiology. Dynamic Fields formalize how neural populations represent the continuous dimensions that characterize perceptual features, movements, and cognitive decisions.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Oxford University Press, USA
- Seitenzahl: 418
- Erscheinungstermin: 10. Dezember 2015
- Englisch
- Abmessung: 257mm x 180mm x 20mm
- Gewicht: 839g
- ISBN-13: 9780199300563
- ISBN-10: 0199300569
- Artikelnr.: 47870975
- Verlag: Oxford University Press, USA
- Seitenzahl: 418
- Erscheinungstermin: 10. Dezember 2015
- Englisch
- Abmessung: 257mm x 180mm x 20mm
- Gewicht: 839g
- ISBN-13: 9780199300563
- ISBN-10: 0199300569
- Artikelnr.: 47870975
Gregor Schöner is a Professor and Chair of Theory of Cognitive Systems as well as the Director at the Institut für Neuroinformatik, Ruhr-Universität Bochum. John P. Spencer is a Professor of Psychology at the University of East Anglia in Norwich, UK.
* Contributors
* Abbreviations
* General Introduction
* John Spencer and Gregor Schöner
* Part 1 Integrating Lower-Level Perception-Action with Higher-Level
Cognition
* Introduction to Part 1
* Gregor Schöner and John P. Spencer
* Chapter 1: The Dynamics of Neural Activation Variables
* Gregor Schöner, Hendrik Reimann, and Jonas Lins
* Chapter 2: Dynamic Field Theory
* Gregor Schöner and Anne Schutte
* Chapter 3: The Ties of DFT to Neurophyisology
* Sebastian Schneegans, Jonas Lins, and Gregor Schöner
* Chapter 4: Embodied Neural Dynamics
* Gregor Schöner, Christian Faubel, Evelina Dineva, and Estela Bicho
* Part 2 Integrating Lower-Level Perception-Action with Higher-Level
Cognition
* Introduction to Part 2
* John P. Spencer and Gregor Schöner
* Chapter 5: Integration and Selection in Multi-Dimensional Dynamic
Fields.
* Sebastian Schneegans, Jonas Lins, and John P. Spencer
* Chapter 6: Integrating Perception and Working Memory in a Three-Layer
Dynamic Field Model
* Jeffrey S. Johnson and Vanessa R. Simmering
* Chapter 7: Sensory-Motor and Cognitive Transformation
* Sebastian Schneegans
* Chapter 8: Integrating "What " and "Where ": Visual Working Memory
for Objects in a Scene
* Sebastian Schneegans, John P. Spencer, and Gregor Schöner
* Chapter 9: Dynamic Scene Representations and Autonomous Robotics
* Stephan K. U. Zibner and Christian Faubel
* Part 3 Integrating Thinking over Multiple Timescales
* Introduction to Part 3
* John P. Spencer and Gregor Schöner
* Chapter 10: Developmental Dynamics: The Spatial Precision Hypothesis
* Vanessa Simmering and Anne Schutte
* Chapter 11: A Process View of Learning and Development in an
Autonomous Exploratory System
* Sammy Perone and Joseph P. Ambrose
* Chapter 12: Grounding Word Learning in Space and Time
* Larissa K. Samuelson and Christian Faubel
* Chapter 13: The Emergence of Higher-level Cognitive Flexibility: DFT
and Executive Function
* Aaron T. Buss, Timothy Wifall, and Eliot Hazeltine
* Chapter 14: Autonomous Sequence Generation in Dynamic Field Theory
* Yulia Sandamirskaya
* Conclusions: A 'How-to' Guide to Modeling with Dynamic Field Theory
* Joseph Ambrose, Sebastian Schneegans, Gregor Schöner,
* and John P. Spencer
* Abbreviations
* General Introduction
* John Spencer and Gregor Schöner
* Part 1 Integrating Lower-Level Perception-Action with Higher-Level
Cognition
* Introduction to Part 1
* Gregor Schöner and John P. Spencer
* Chapter 1: The Dynamics of Neural Activation Variables
* Gregor Schöner, Hendrik Reimann, and Jonas Lins
* Chapter 2: Dynamic Field Theory
* Gregor Schöner and Anne Schutte
* Chapter 3: The Ties of DFT to Neurophyisology
* Sebastian Schneegans, Jonas Lins, and Gregor Schöner
* Chapter 4: Embodied Neural Dynamics
* Gregor Schöner, Christian Faubel, Evelina Dineva, and Estela Bicho
* Part 2 Integrating Lower-Level Perception-Action with Higher-Level
Cognition
* Introduction to Part 2
* John P. Spencer and Gregor Schöner
* Chapter 5: Integration and Selection in Multi-Dimensional Dynamic
Fields.
* Sebastian Schneegans, Jonas Lins, and John P. Spencer
* Chapter 6: Integrating Perception and Working Memory in a Three-Layer
Dynamic Field Model
* Jeffrey S. Johnson and Vanessa R. Simmering
* Chapter 7: Sensory-Motor and Cognitive Transformation
* Sebastian Schneegans
* Chapter 8: Integrating "What " and "Where ": Visual Working Memory
for Objects in a Scene
* Sebastian Schneegans, John P. Spencer, and Gregor Schöner
* Chapter 9: Dynamic Scene Representations and Autonomous Robotics
* Stephan K. U. Zibner and Christian Faubel
* Part 3 Integrating Thinking over Multiple Timescales
* Introduction to Part 3
* John P. Spencer and Gregor Schöner
* Chapter 10: Developmental Dynamics: The Spatial Precision Hypothesis
* Vanessa Simmering and Anne Schutte
* Chapter 11: A Process View of Learning and Development in an
Autonomous Exploratory System
* Sammy Perone and Joseph P. Ambrose
* Chapter 12: Grounding Word Learning in Space and Time
* Larissa K. Samuelson and Christian Faubel
* Chapter 13: The Emergence of Higher-level Cognitive Flexibility: DFT
and Executive Function
* Aaron T. Buss, Timothy Wifall, and Eliot Hazeltine
* Chapter 14: Autonomous Sequence Generation in Dynamic Field Theory
* Yulia Sandamirskaya
* Conclusions: A 'How-to' Guide to Modeling with Dynamic Field Theory
* Joseph Ambrose, Sebastian Schneegans, Gregor Schöner,
* and John P. Spencer
* Contributors
* Abbreviations
* General Introduction
* John Spencer and Gregor Schöner
* Part 1 Integrating Lower-Level Perception-Action with Higher-Level
Cognition
* Introduction to Part 1
* Gregor Schöner and John P. Spencer
* Chapter 1: The Dynamics of Neural Activation Variables
* Gregor Schöner, Hendrik Reimann, and Jonas Lins
* Chapter 2: Dynamic Field Theory
* Gregor Schöner and Anne Schutte
* Chapter 3: The Ties of DFT to Neurophyisology
* Sebastian Schneegans, Jonas Lins, and Gregor Schöner
* Chapter 4: Embodied Neural Dynamics
* Gregor Schöner, Christian Faubel, Evelina Dineva, and Estela Bicho
* Part 2 Integrating Lower-Level Perception-Action with Higher-Level
Cognition
* Introduction to Part 2
* John P. Spencer and Gregor Schöner
* Chapter 5: Integration and Selection in Multi-Dimensional Dynamic
Fields.
* Sebastian Schneegans, Jonas Lins, and John P. Spencer
* Chapter 6: Integrating Perception and Working Memory in a Three-Layer
Dynamic Field Model
* Jeffrey S. Johnson and Vanessa R. Simmering
* Chapter 7: Sensory-Motor and Cognitive Transformation
* Sebastian Schneegans
* Chapter 8: Integrating "What " and "Where ": Visual Working Memory
for Objects in a Scene
* Sebastian Schneegans, John P. Spencer, and Gregor Schöner
* Chapter 9: Dynamic Scene Representations and Autonomous Robotics
* Stephan K. U. Zibner and Christian Faubel
* Part 3 Integrating Thinking over Multiple Timescales
* Introduction to Part 3
* John P. Spencer and Gregor Schöner
* Chapter 10: Developmental Dynamics: The Spatial Precision Hypothesis
* Vanessa Simmering and Anne Schutte
* Chapter 11: A Process View of Learning and Development in an
Autonomous Exploratory System
* Sammy Perone and Joseph P. Ambrose
* Chapter 12: Grounding Word Learning in Space and Time
* Larissa K. Samuelson and Christian Faubel
* Chapter 13: The Emergence of Higher-level Cognitive Flexibility: DFT
and Executive Function
* Aaron T. Buss, Timothy Wifall, and Eliot Hazeltine
* Chapter 14: Autonomous Sequence Generation in Dynamic Field Theory
* Yulia Sandamirskaya
* Conclusions: A 'How-to' Guide to Modeling with Dynamic Field Theory
* Joseph Ambrose, Sebastian Schneegans, Gregor Schöner,
* and John P. Spencer
* Abbreviations
* General Introduction
* John Spencer and Gregor Schöner
* Part 1 Integrating Lower-Level Perception-Action with Higher-Level
Cognition
* Introduction to Part 1
* Gregor Schöner and John P. Spencer
* Chapter 1: The Dynamics of Neural Activation Variables
* Gregor Schöner, Hendrik Reimann, and Jonas Lins
* Chapter 2: Dynamic Field Theory
* Gregor Schöner and Anne Schutte
* Chapter 3: The Ties of DFT to Neurophyisology
* Sebastian Schneegans, Jonas Lins, and Gregor Schöner
* Chapter 4: Embodied Neural Dynamics
* Gregor Schöner, Christian Faubel, Evelina Dineva, and Estela Bicho
* Part 2 Integrating Lower-Level Perception-Action with Higher-Level
Cognition
* Introduction to Part 2
* John P. Spencer and Gregor Schöner
* Chapter 5: Integration and Selection in Multi-Dimensional Dynamic
Fields.
* Sebastian Schneegans, Jonas Lins, and John P. Spencer
* Chapter 6: Integrating Perception and Working Memory in a Three-Layer
Dynamic Field Model
* Jeffrey S. Johnson and Vanessa R. Simmering
* Chapter 7: Sensory-Motor and Cognitive Transformation
* Sebastian Schneegans
* Chapter 8: Integrating "What " and "Where ": Visual Working Memory
for Objects in a Scene
* Sebastian Schneegans, John P. Spencer, and Gregor Schöner
* Chapter 9: Dynamic Scene Representations and Autonomous Robotics
* Stephan K. U. Zibner and Christian Faubel
* Part 3 Integrating Thinking over Multiple Timescales
* Introduction to Part 3
* John P. Spencer and Gregor Schöner
* Chapter 10: Developmental Dynamics: The Spatial Precision Hypothesis
* Vanessa Simmering and Anne Schutte
* Chapter 11: A Process View of Learning and Development in an
Autonomous Exploratory System
* Sammy Perone and Joseph P. Ambrose
* Chapter 12: Grounding Word Learning in Space and Time
* Larissa K. Samuelson and Christian Faubel
* Chapter 13: The Emergence of Higher-level Cognitive Flexibility: DFT
and Executive Function
* Aaron T. Buss, Timothy Wifall, and Eliot Hazeltine
* Chapter 14: Autonomous Sequence Generation in Dynamic Field Theory
* Yulia Sandamirskaya
* Conclusions: A 'How-to' Guide to Modeling with Dynamic Field Theory
* Joseph Ambrose, Sebastian Schneegans, Gregor Schöner,
* and John P. Spencer