Neural network learning in humans /:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
New York :
Nova Biomedical,
[2015]
|
| Schriftenreihe: | Neuroscience research progress.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Beschreibung: | 1 online resource |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781634825733 163482573X |
Internformat
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| 505 | 0 | |a NEURAL NETWORK LEARNING IN HUMANS ; NEURAL NETWORK LEARNING IN HUMANS ; Contents; Preface; Chapter I Theory of Neural Network Learning; Abstract; 1. Introduction to Neural Network Learning; 1.1. From Repair to Learning; 1.2. Tools and Strategy to Study Human Neural Network learning; 2. Anatomy of the Spinal Cord and Cauda Equina Nerve Roots; 2.1. Anatomy of the Cauda Equina: A Site Where CNS Functioning Can Be Measured; 3. Recording of Single-Nerve Fiber Action Potentials (Electrophysiology); 3.1. Principle of Recording Single Afferent and Efferent Nerve Fiber Action Potentials | |
| 505 | 8 | |a 3.2. Recording of Single-nerve Fiber Action Potentials from Nerve Roots and Splitting of the Multiunit Recording into Natural Impulse Patterns of Several Single Afferent and Efferent Fibers4. Classification of Peripheral Human Nerve Fibers (Electrophysiology Combined with Morphometry); 4.1. Classification of Human Peripheral Nerve Fibers by the Group Conduction Velocity and the Group Nerve Fiber Diameter; 4.2. The Neuron Microenvironment Influences Neural Network Functioning; 5. Self-organization of Neuronal Networks of the Human Central Nervous System | |
| 505 | 8 | |a 5.1. Self-Organization of Premotor Spinal Network Oscillators5.2. Phase and Frequency Coordination among Neuron Firing for Human CNS Self-Organization; 5.3. Relative Phase and Frequency Coordination between the Firings of (and ( -Motoneurons and Secondary Muscle Spindle Afferents Recorded with the Single-nerve Fiber Action Potential Recording Method; 6. Surface Electromyography to Record Motor Programs, Oscillatory Firing, and Phase and Frequency Coordination among Motor Units (Electrophysiology); 6.1. Recording of Single-Motor Units; 6.2. Oscillatory Firing of Motoneurons and Motor Units | |
| 505 | 8 | |a 6.3. Motor Program Generation, Oscillatory Firing and Coordination Among (1-Motor Units (FF-type)6.4. Firing Frequency Increases with Increasing Load; 6.5. Motor Program Development; 6.6. Phase and Frequency Coordination between the Firing of the Motor Units; 6.7. Phase and Frequency Coordination's between (1-Motor Unit Firing of Different Muscles and Different Arms; 7. Similar Efferent Impulse Patterns Obtained with the Two Electrophysiological Methods Single-nerve Fiber Action Potential Recording Method and Single-Motor Unit sEMG | |
| 505 | 8 | |a 8. Integrative Physiology: System Theory of Pattern Formation8.1. The System Theory of Pattern Formation for Understanding Neuronal Network Organization and Learning; 8.2. Learning Implications for Treatment Derived from the Equations of Motion of the Collective Variables (Formula 2); 8.3. Geographical Landscape of Attractors; 8.4. Equation of Motion, Potential Function and Attractor Layout for the Movement 'Jumping on Springboard'; 8.5. Including the Variability of Phase and Frequency Coordination among Neuron Firing into the Equation of Motion of the Collective Variables | |
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| contents | NEURAL NETWORK LEARNING IN HUMANS ; NEURAL NETWORK LEARNING IN HUMANS ; Contents; Preface; Chapter I Theory of Neural Network Learning; Abstract; 1. Introduction to Neural Network Learning; 1.1. From Repair to Learning; 1.2. Tools and Strategy to Study Human Neural Network learning; 2. Anatomy of the Spinal Cord and Cauda Equina Nerve Roots; 2.1. Anatomy of the Cauda Equina: A Site Where CNS Functioning Can Be Measured; 3. Recording of Single-Nerve Fiber Action Potentials (Electrophysiology); 3.1. Principle of Recording Single Afferent and Efferent Nerve Fiber Action Potentials 3.2. Recording of Single-nerve Fiber Action Potentials from Nerve Roots and Splitting of the Multiunit Recording into Natural Impulse Patterns of Several Single Afferent and Efferent Fibers4. Classification of Peripheral Human Nerve Fibers (Electrophysiology Combined with Morphometry); 4.1. Classification of Human Peripheral Nerve Fibers by the Group Conduction Velocity and the Group Nerve Fiber Diameter; 4.2. The Neuron Microenvironment Influences Neural Network Functioning; 5. Self-organization of Neuronal Networks of the Human Central Nervous System 5.1. Self-Organization of Premotor Spinal Network Oscillators5.2. Phase and Frequency Coordination among Neuron Firing for Human CNS Self-Organization; 5.3. Relative Phase and Frequency Coordination between the Firings of (and ( -Motoneurons and Secondary Muscle Spindle Afferents Recorded with the Single-nerve Fiber Action Potential Recording Method; 6. Surface Electromyography to Record Motor Programs, Oscillatory Firing, and Phase and Frequency Coordination among Motor Units (Electrophysiology); 6.1. Recording of Single-Motor Units; 6.2. Oscillatory Firing of Motoneurons and Motor Units 6.3. Motor Program Generation, Oscillatory Firing and Coordination Among (1-Motor Units (FF-type)6.4. Firing Frequency Increases with Increasing Load; 6.5. Motor Program Development; 6.6. Phase and Frequency Coordination between the Firing of the Motor Units; 6.7. Phase and Frequency Coordination's between (1-Motor Unit Firing of Different Muscles and Different Arms; 7. Similar Efferent Impulse Patterns Obtained with the Two Electrophysiological Methods Single-nerve Fiber Action Potential Recording Method and Single-Motor Unit sEMG 8. Integrative Physiology: System Theory of Pattern Formation8.1. The System Theory of Pattern Formation for Understanding Neuronal Network Organization and Learning; 8.2. Learning Implications for Treatment Derived from the Equations of Motion of the Collective Variables (Formula 2); 8.3. Geographical Landscape of Attractors; 8.4. Equation of Motion, Potential Function and Attractor Layout for the Movement 'Jumping on Springboard'; 8.5. Including the Variability of Phase and Frequency Coordination among Neuron Firing into the Equation of Motion of the Collective Variables |
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| id | ZDB-4-EBA-ocn923009662 |
| illustrated | Illustrated |
| indexdate | 2024-11-27T13:26:49Z |
| institution | BVB |
| isbn | 9781634825733 163482573X |
| language | English |
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| publisher | Nova Biomedical, |
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| series | Neuroscience research progress. |
| series2 | Neuroscience research progress |
| spelling | Schalow, Giselher, author. Neural network learning in humans / Giselher Schalow, Dr. Med. Habil., Dr. Rer. Nat., Dipl. Ing. New York : Nova Biomedical, [2015] 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Neuroscience research progress Includes bibliographical references and index. Print version record and CIP data provided by publisher. NEURAL NETWORK LEARNING IN HUMANS ; NEURAL NETWORK LEARNING IN HUMANS ; Contents; Preface; Chapter I Theory of Neural Network Learning; Abstract; 1. Introduction to Neural Network Learning; 1.1. From Repair to Learning; 1.2. Tools and Strategy to Study Human Neural Network learning; 2. Anatomy of the Spinal Cord and Cauda Equina Nerve Roots; 2.1. Anatomy of the Cauda Equina: A Site Where CNS Functioning Can Be Measured; 3. Recording of Single-Nerve Fiber Action Potentials (Electrophysiology); 3.1. Principle of Recording Single Afferent and Efferent Nerve Fiber Action Potentials 3.2. Recording of Single-nerve Fiber Action Potentials from Nerve Roots and Splitting of the Multiunit Recording into Natural Impulse Patterns of Several Single Afferent and Efferent Fibers4. Classification of Peripheral Human Nerve Fibers (Electrophysiology Combined with Morphometry); 4.1. Classification of Human Peripheral Nerve Fibers by the Group Conduction Velocity and the Group Nerve Fiber Diameter; 4.2. The Neuron Microenvironment Influences Neural Network Functioning; 5. Self-organization of Neuronal Networks of the Human Central Nervous System 5.1. Self-Organization of Premotor Spinal Network Oscillators5.2. Phase and Frequency Coordination among Neuron Firing for Human CNS Self-Organization; 5.3. Relative Phase and Frequency Coordination between the Firings of (and ( -Motoneurons and Secondary Muscle Spindle Afferents Recorded with the Single-nerve Fiber Action Potential Recording Method; 6. Surface Electromyography to Record Motor Programs, Oscillatory Firing, and Phase and Frequency Coordination among Motor Units (Electrophysiology); 6.1. Recording of Single-Motor Units; 6.2. Oscillatory Firing of Motoneurons and Motor Units 6.3. Motor Program Generation, Oscillatory Firing and Coordination Among (1-Motor Units (FF-type)6.4. Firing Frequency Increases with Increasing Load; 6.5. Motor Program Development; 6.6. Phase and Frequency Coordination between the Firing of the Motor Units; 6.7. Phase and Frequency Coordination's between (1-Motor Unit Firing of Different Muscles and Different Arms; 7. Similar Efferent Impulse Patterns Obtained with the Two Electrophysiological Methods Single-nerve Fiber Action Potential Recording Method and Single-Motor Unit sEMG 8. Integrative Physiology: System Theory of Pattern Formation8.1. The System Theory of Pattern Formation for Understanding Neuronal Network Organization and Learning; 8.2. Learning Implications for Treatment Derived from the Equations of Motion of the Collective Variables (Formula 2); 8.3. Geographical Landscape of Attractors; 8.4. Equation of Motion, Potential Function and Attractor Layout for the Movement 'Jumping on Springboard'; 8.5. Including the Variability of Phase and Frequency Coordination among Neuron Firing into the Equation of Motion of the Collective Variables Neural networks (Neurobiology) http://id.loc.gov/authorities/subjects/sh93002348 Nervous system. http://id.loc.gov/authorities/subjects/sh85090917 Nerve Net physiology Nervous System Diseases rehabilitation Nervous System https://id.nlm.nih.gov/mesh/D009420 Réseaux neuronaux (Neurobiologie) Système nerveux. MEDICAL Physiology. bisacsh SCIENCE Life Sciences Human Anatomy & Physiology. bisacsh Nervous system fast Neural networks (Neurobiology) fast Psychology fast has work: Neural network learning in humans (Text) https://id.oclc.org/worldcat/entity/E39PCXgqFgHQQBCkqvJTvY36Dq https://id.oclc.org/worldcat/ontology/hasWork Print version: Neural network learning in humans. New York : Nova Biomedical, [2015] 9781634824682 (DLC) 2015936105 Neuroscience research progress. FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1078029 Volltext |
| spellingShingle | Schalow, Giselher Neural network learning in humans / Neuroscience research progress. NEURAL NETWORK LEARNING IN HUMANS ; NEURAL NETWORK LEARNING IN HUMANS ; Contents; Preface; Chapter I Theory of Neural Network Learning; Abstract; 1. Introduction to Neural Network Learning; 1.1. From Repair to Learning; 1.2. Tools and Strategy to Study Human Neural Network learning; 2. Anatomy of the Spinal Cord and Cauda Equina Nerve Roots; 2.1. Anatomy of the Cauda Equina: A Site Where CNS Functioning Can Be Measured; 3. Recording of Single-Nerve Fiber Action Potentials (Electrophysiology); 3.1. Principle of Recording Single Afferent and Efferent Nerve Fiber Action Potentials 3.2. Recording of Single-nerve Fiber Action Potentials from Nerve Roots and Splitting of the Multiunit Recording into Natural Impulse Patterns of Several Single Afferent and Efferent Fibers4. Classification of Peripheral Human Nerve Fibers (Electrophysiology Combined with Morphometry); 4.1. Classification of Human Peripheral Nerve Fibers by the Group Conduction Velocity and the Group Nerve Fiber Diameter; 4.2. The Neuron Microenvironment Influences Neural Network Functioning; 5. Self-organization of Neuronal Networks of the Human Central Nervous System 5.1. Self-Organization of Premotor Spinal Network Oscillators5.2. Phase and Frequency Coordination among Neuron Firing for Human CNS Self-Organization; 5.3. Relative Phase and Frequency Coordination between the Firings of (and ( -Motoneurons and Secondary Muscle Spindle Afferents Recorded with the Single-nerve Fiber Action Potential Recording Method; 6. Surface Electromyography to Record Motor Programs, Oscillatory Firing, and Phase and Frequency Coordination among Motor Units (Electrophysiology); 6.1. Recording of Single-Motor Units; 6.2. Oscillatory Firing of Motoneurons and Motor Units 6.3. Motor Program Generation, Oscillatory Firing and Coordination Among (1-Motor Units (FF-type)6.4. Firing Frequency Increases with Increasing Load; 6.5. Motor Program Development; 6.6. Phase and Frequency Coordination between the Firing of the Motor Units; 6.7. Phase and Frequency Coordination's between (1-Motor Unit Firing of Different Muscles and Different Arms; 7. Similar Efferent Impulse Patterns Obtained with the Two Electrophysiological Methods Single-nerve Fiber Action Potential Recording Method and Single-Motor Unit sEMG 8. Integrative Physiology: System Theory of Pattern Formation8.1. The System Theory of Pattern Formation for Understanding Neuronal Network Organization and Learning; 8.2. Learning Implications for Treatment Derived from the Equations of Motion of the Collective Variables (Formula 2); 8.3. Geographical Landscape of Attractors; 8.4. Equation of Motion, Potential Function and Attractor Layout for the Movement 'Jumping on Springboard'; 8.5. Including the Variability of Phase and Frequency Coordination among Neuron Firing into the Equation of Motion of the Collective Variables Neural networks (Neurobiology) http://id.loc.gov/authorities/subjects/sh93002348 Nervous system. http://id.loc.gov/authorities/subjects/sh85090917 Nerve Net physiology Nervous System Diseases rehabilitation Nervous System https://id.nlm.nih.gov/mesh/D009420 Réseaux neuronaux (Neurobiologie) Système nerveux. MEDICAL Physiology. bisacsh SCIENCE Life Sciences Human Anatomy & Physiology. bisacsh Nervous system fast Neural networks (Neurobiology) fast Psychology fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh93002348 http://id.loc.gov/authorities/subjects/sh85090917 https://id.nlm.nih.gov/mesh/D009420 |
| title | Neural network learning in humans / |
| title_auth | Neural network learning in humans / |
| title_exact_search | Neural network learning in humans / |
| title_full | Neural network learning in humans / Giselher Schalow, Dr. Med. Habil., Dr. Rer. Nat., Dipl. Ing. |
| title_fullStr | Neural network learning in humans / Giselher Schalow, Dr. Med. Habil., Dr. Rer. Nat., Dipl. Ing. |
| title_full_unstemmed | Neural network learning in humans / Giselher Schalow, Dr. Med. Habil., Dr. Rer. Nat., Dipl. Ing. |
| title_short | Neural network learning in humans / |
| title_sort | neural network learning in humans |
| topic | Neural networks (Neurobiology) http://id.loc.gov/authorities/subjects/sh93002348 Nervous system. http://id.loc.gov/authorities/subjects/sh85090917 Nerve Net physiology Nervous System Diseases rehabilitation Nervous System https://id.nlm.nih.gov/mesh/D009420 Réseaux neuronaux (Neurobiologie) Système nerveux. MEDICAL Physiology. bisacsh SCIENCE Life Sciences Human Anatomy & Physiology. bisacsh Nervous system fast Neural networks (Neurobiology) fast Psychology fast |
| topic_facet | Neural networks (Neurobiology) Nervous system. Nerve Net physiology Nervous System Diseases rehabilitation Nervous System Réseaux neuronaux (Neurobiologie) Système nerveux. MEDICAL Physiology. SCIENCE Life Sciences Human Anatomy & Physiology. Nervous system Psychology |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1078029 |
| work_keys_str_mv | AT schalowgiselher neuralnetworklearninginhumans |