Cognitive neuroscience the biology of the mind
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[2014]
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| 100 | 1 | |a Gazzaniga, Michael S. |d 1939- |e Verfasser |0 (DE-588)11060007X |4 aut | |
| 245 | 1 | 0 | |a Cognitive neuroscience |b the biology of the mind |c Micael S. Gazzaniga (University of California, Santa Barbara), Richard B. Ivry (University of California, Berekley), George R. Mangun (University of California, Davis) |
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Datensatz im Suchindex
| _version_ | 1819580932693164032 |
|---|---|
| adam_text | Contents
Boxes xii
Preface xiii
Acknowledgments xv
•# •• ••
1 A Brief History of Cognitive
Neuroscience 2
A Historical Perspective 4
The Brain Story 5
The Psychological Story 10
The Instruments of Neuroscience 14
The Electroencephalograph 14
Measuring Blood Flow in the Brain 15
Computerized Axial Tomography 15
Positron Emission Tomography and
Radioactive Tracers 16
Magnetic Resonance Imaging 17
Functional Magnetic Resonance Imaging 17
The Book in Your Hands 19
2 Structure and Function of the
Nervous System 22
The Structure of Neurons 24
Neuronal Signaling 27
The Membrane Potential 27
The Action Potential 30
Synaptic Transmission 32
Chemical Transmission 32
Neurotransmitters 33
Inactivation of Neurotransmitters after
Release 34
Electrical Transmission 35
The Role of Glial Cells 35
The Bigger Picture 37
Overview of Nervous System Structure 37
The Autonomic Nervous System 38
The Central Nervous System 38
A Guided Tour of the Brain 40
The Spinal Cord 40
The Brainstem: Medulla, Pons, Cerebellum,
and Midbrain 43
The Diencephalon: Thalamus and
Hypothalamus 45
The Telencephalon: Limbic System, Basal
Ganglia, and Cerebral Cortex 47
The Cerebral Cortex 49
Dividing the Cortex Anatomically 50
Dividing the Cortex Cytoarchitectonically 51
Functional Divisions of the Cortex 53
Development of the Nervous System 60
Overview of Gross Development 60
Birth of New Neurons Throughout Life 64
The Baby Brain: Ready to Rock ’n’ Roll? 66
3 Methods of Cognitive
Neuroscience 70
Cognitive Psychology and Behavioral Methods 74
Ferreting Out Mental Representations and
Transformations 74
Constraints on Information Processing 78
Studying the Damaged Brain 78
Causes of Neurological Dysfunction 79
Studying Brain-Behavior Relationships
Following Neural Disruption 83
Functional Neurosurgery: Intervention to Alter
or Restore Brain Function 86
v
vi I Contents
Methods to Perturb Neural Function 86
Pharmacology 87
Transcranial Magnetic Stimulation 88
Transcranial Direct Current Stimulation 89
Genetic Manipulations 89
Structural Analysis of the Brain 91
Computed Tomography 91
Magnetic Resonance Imaging 92
Diffusion Tensor Imaging 93
Methods for the Study of Neural Function 95
Single-Cell Recording in Animals 95
Single-Cell Recordings in Humans 98
Electroencephalography 98
Event-Related Potential 100
Magnetoencephalography 102
Electrocortogram 102
The Marriage of Function and Structure:
Neuroimaging 104
Positron Emission Tomography 105
Functional Magnetic Resonance Imaging 107
Limitations of PET and fMRI 110
Brain Graphs 110
Computer Modeling 111
Representations in Computer Models 113
Models Lead to Testable Predictions 113
Converging Methods 114
PART II CoreProcesses
4 Hemispheric Specialization 120
Anatomy of the Hemispheres 125
Anatomical Correlates of Hemispheric
Specialization 125
Function of the Corpus Callosum 129
Splitting the Brain: Cortical Disconnection 133
The Surgery 133
Methodological Considerations in Studying
Split-Brain Patients 134
Functional Consequences of the Split-Brain
Procedure 135
Hemispheric Specialization 136
Evidence From Split-Brain Patients 136
Theory of Mind 145
The Interpreter 146
Evidence From Patients With Unilateral
Cortical Lesions 149
Evidence From the Normal Brain 150
The Evolutionary Basis of Hemispheric
Specialization 153
Hemispheric Specialization in
Nonhumans 153
Modularity 154
Hemispheric Specialization: A Dichotomy in
Function or Stylishly Different? 155
Is There a Connection Between Handedness
and Left-Hemisphere Language
Dominance? 156
Split-Brain Research as a Window into Conscious
Experience 159
5 Sensation and Perception 162
Senses, Sensation, and Perception 164
Sensation: Early Perceptual Processing 164
Shared Processing From Acquisition to
Anatomy 164
Receptors Share Responses to Stimuli 165
Audition 167
Neural Pathways of Audition 168
Computational Goals in Audition 170
Contents I vii
Olfaction 172
Neural Pathways of Olfaction 173
The Role of Sniffing in Olfactory
Perception 174
One Nose, Two Odors 175
Gustation 176
Neural Pathways of Gustation 176
Gustatory Processing 178
Somatosensation 179
Neural Pathways of Somatosensation 179
Somatosensory Processing 180
Plasticity in the Somatosensory Cortex 181
Mechanisms of Cortical Plasticity 184
Vision 184
Neural Pathways of Vision 184
Cortical Visual Areas 187
From Sensation to Perception 197
Where Are Percepts Formed? 197
Individual Differences in Perception 200
Deficits in Visual Perception 201
Deficits in Color Perception:
Achromatopsia 201
Deficits in Motion Perception: Akinetopsia 203
Perception Without a Visual Cortex 206
Multimodal Perception:
I See What You’re Sayin’ 207
Multimodal Processing in the Brain 208
Errors in Multimodal Processing:
Synesthesia 211
Perceptual Reorganization 213
6 Object Recognition 218
Principles of Object Recognition 220
Multiple Pathways for Visual Perception 222
The What and Where Pathways 224
Representational Differences Between the
Dorsal and Ventral Streams 224
Perception for Identification Versus
Perception for Action 225
Computational Problems in Object
Recognition 228
Variability in Sensory Information 230
View-Dependent Versus View-Invariant
Recognition 231
Shape Encoding 232
Grandmother Cells and Ensemble Coding 233
Summary of Computational Problems 236
Failures in Object Recognition:
The Big Picture 236
Apperceptive Agnosia 237
Integrative Agnosia 239
Associative Agnosia 240
Category Specificity in Agnosia:
The Devil Is in the Details 241
Animate Versus Inanimate? 241
Organizational Theories of Category
Specificity 243
Prosopagnosia Is a Failure to Recognize
Faces 246
Processing Faces: Are Faces Special? 246
Regions of the Brain Involved in Face
Recognition 248
Parts and Wholes in Visual Perception 253
Faces Are Processed in a Holistic Manner 255
Does the Visual System Contain Other
Category-Specific Systems? 258
Mind Reading 261
Encoding and Decoding Brain Signals 261
Statistical Pattern Recognition 263
A Look Into the Future of Mind Reading 266
viii | Contents
7 Attention 272
The Anatomy of Attention 275
The Neuropsychology of Attention 275
Neglect 276
Neuropsychological Tests of Neglect 277
Extinction 278
Comparing Neglect and
Bälint’s Syndrome 279
Models of Attention 280
Hermann von Helmholtz and Covert
Attention 280
The Cocktail Party Effect 281
Early Versus Late Selection Models 283
Quantifying the Role of Attention in
Perception 283
Neural Mechanisms of Attention and Perceptual
Selection 286
Voluntary Spatial Attention 286
Reflexive Spatial Attention 295
Visual Search 297
Feature Attention 301
Interplay Between Spatial and Feature
Attention 306
Object Attention 308
Review of Attention and Perceptual Selection
Mechanisms 309
Attentional Control Networks 311
Dorsal Attention Network: Frontoparietal
Attention System 313
Ventral Right Attention Network 318
Subcortical Components of Attention Control
Networks 319
Review of Attentional Control Networks 322
8 Action 326
The Anatomy and Control of Motor
Structures 329
Muscles, Motor Neurons, and the Spinal
Cord 330
Subcortical Motor Structures 332
Cortical Regions Involved in Motor Control 334
Computational Issues in Motor Control 337
Central Pattern Generators 337
Central Representation of Movement Plans 338
Hierarchical Representation of Action
Sequences 340
Physiological Analysis of Motor Pathways 342
Neural Coding of Movement 342
Alternative Perspectives on Neural
Representation of Movement 343
Goal Selection and Action Planning 346
Action Goals and Movement Plans 347
Representational Variation Across Motor
Areas of the Cortex 348
The Brain-Machine Interface 352
Early Work on the Brain-Machine Interface 352
Making Brain-Machine Interface Systems
Stable 353
Movement Initiation and the Basal Ganglia 356
The Basal Ganglia as a Gatekeeper 357
Disorders of the Basal Ganglia 358
Action Understanding and Mirror Neurons 363
Learning and Performing New Skills 366
Shift in Cortical Control with Learning 366
Adaptive Learning Through Sensory
Feedback 367
Neural Mechanisms of Adaptation 368
Forward Models: Using Sensorimotor Predictions
for Motor Control and Learning 371
Experts 373
Contents I ix
9 Memory 378
The Anatomy of Memory 381
Memory Deficits: Amnesia 382
Brain Surgery and Memory Loss 383
Recent Studies on Memory Loss 384
Mechanisms of Memory 384
Short-Term Forms of Memory 384
Long-Term Forms of Memory 389
The Medial Temporal Lobe Memory System 394
Evidence From Amnesia 394
Evidence From Animals With Medial Temporal
Lobe Lesions 397
Imaging Human Memory 402
Encoding and the Hippocampus 402
Retrieval and the Hippocampus 404
Recognition, Familiarity, and the Medial
Temporal Lobe 404
Encoding, Retrieval, and the Frontal Cortex 410
Retrieval and the Parietal Cortex 410
Memory Consolidation 413
The Hippocampus and Consolidation 413
The Lateral Anterior Temporal Lobe and
Consolidation 414
Cellular Basis of Learning and Memory 415
Long-Term Potentiation and the -
Hippocampus 416
Long-Term Potentiation and Memory
Performance 418
10 Emotion 424
What Is an Emotion? 427
Neural Systems Involved in Emotion
Processing 428
Early Concepts: The Limbic System as the
Emotional Brain 428
Emerging Concepts of Emotional Networks 429
Categorizing Emotions 430
Basic Emotions 431
Complex Emotions 432
Dimensions of Emotion 433
Theories of Emotion Generation 434
James-Lange Theory 434
Cannon-Bard Theory 435
Appraisal Theory 435
Singer-Schachter Theory:
Cognitive Interpretation of Arousal 435
Constructivist Theories 436
Evolutionary Psychology Approach 436
LeDoux’s High Road and Low Road 436
The Amygdala 437
Interactions Between Emotion and Other
Cognitive Processes 438
The Influence of Emotion on Learning 439
Implicit Emotional Learning 439
Explicit Emotional Learning 443
The Influence of Emotion on Perception and
Attention 446
Emotion and Decision Making 447
Emotion and Social Stimuli 449
Get A Grip! Cognitive Control of Emotion 455
Other Areas, Other Emotions 459
The Insular Cortex 459
Disgust 460
Happiness 461
Love 461
Unique Systems, Common Components 464
11 Language 468
The Anatomy of Language 471
Brain Damage and Language Deficits 472
Broca’s Aphasia 472
Wernicke’s Aphasia 473
Conduction Aphasia 474
The Fundamentals of Language in the Human
Brain 475
Words and the Representation of Their
Meaning 475
Models of the Mental Lexicon 476
Neural Substrates of the Mental Lexicon 477
Language Comprehension 480
Perceptual Analyses of the Linguistic Input 480
x | Contents
Spoken Input: Understanding Speech 481
Written Input: Reading Words 484
The Role of Context in Word Recognition 489
Integration of Words in Sentences 490
Semantic Processing and the N400 Wave 490
Syntactic Processing and the P600 Wave 491
12 Cognitive Control 506
What Is Cognitive Control? 508
The Anatomy Behind Cognitive Control 509
Subdivisions of the Frontal Lobes 509
Networks Underlying Cognitive Control 509
Cognitive Control Deficits 510
Goal-Oriented Behavior 511
Cognitive Control Requires Working
Memory 512
Prefrontal Cortex Is Necessary for Working
Memory but Not Associative Memory 512
Physiological Correlates of Working
Memory 513
Processing Differences Across Prefrontal
Cortex 517
Hierarchical Organization of Prefrontal
Cortex 519
Decision Making 520
Is It Worth It? Value and Decision Making 521
Neural Models of Language Comprehension 495
Networks of the Left-Hemisphere Language
System 496
Neural Models of Speech Production 496
Evolution of Language 500
Shared Intentionally 500
Components of Value 522
Representation of Value 522
More Than One Type of Decision System? 525
Dopamine Activity and Reward Processing 526
Alternative Views of Dopamine Activity 530
Goal Planning 532
Cognitive Control Is Necessary for Planning
and Staying on Goal 534
Retrieval and Selection of Task-Relevant
Information 535
Task Switching 538
Goal-Based Cognitive Control 539
Goal Representation and the Inhibition
and Enhancement of Working Memory
Representations 539
Prefrontal Cortex and Modulation of
Processing 543
Inhibiting Activation of Long-Term Memory 545
Inhibition of Action 545
Ensuring That Goal-Oriented Behaviors
Succeed 549
The Medial Frontal Cortex as a Monitoring
System 550
How Does Medial Frontal Cortex
Monitor Processing in Cognitive Control
Networks? 550
13 Social Cognition 558
Anatomical Substrates of Social Cognition 561
Deficits 561
Socrates’ Imperative: Know Thyself 563
Self-Referential Processing 563
Self-Descriptive Personality Traits 567
Self-Reference as a Baseline Mode of Brain
Function 568
Self-Perception as a Motivated Process 570
Predicting Our Future Mental State 572
Theory of Mind: Understanding the Mental
States of Others 573
Developmental Milestones 573
Mechanisms for Inferring Other People’s
Thoughts 575
Neural Correlates of Mental State
Attribution 580
Autism as a Window on the Role of Mental
State Attribution 586
Social Knowledge 592
Representations of Social Knowledge 593
Using Social Knowledge to Make Decisions 595
Neuroeconomics 596
Moral Decisions 598
14 Consciousness, Free Will, and
the Law 604
Anatomical Orientation 607
The Brainstem 607
The Thalamus 608
The Cerebral Cortex 608
Consciousness 608
Conscious Versus Unconscious Processing
and the Access of Information 610
The Extent of Subconscious Processing 612
Gaining Access to Consciousness 615
Sentience 618
Neurons, Neuronal Groups, and Conscious
Experience 618
The Emergence of the Brain Interpreter in the
Human Species 620
Left- and Right-Hemisphere
Consciousness 621
Is Consciousness a Uniquely Human
Experience? 622
Abandoning the Concept of Free Will 623
Determinism and Physics 624
Chaos 625
Quantum Theory 625
Emergence 626
Multiple Realizability 627
Can Mental States Affect Brain
Processing? 628
The Layer Beyond the Brain 631
The Law 631
Responsibility 632
Guilty—Now What? 636
Born to Judge 637
What’s a Judge to Do? 638
Crime and No Punishment? 639
Taming the Wild Beast 639
Glossary G-l
References R-l
Abbreviations A-l
Credits C-l
|
| any_adam_object | 1 |
| author | Gazzaniga, Michael S. 1939- Ivry, Richard B. Mangun, George R. 1956- |
| author_GND | (DE-588)11060007X (DE-588)136193390 |
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| ctrlnum | (OCoLC)990398772 (DE-599)BVBBV044244032 |
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| dewey-hundreds | 600 - Technology (Applied sciences) |
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| dewey-search | 612.8/233 |
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| dewey-tens | 610 - Medicine and health |
| discipline | Biologie Psychologie Medizin |
| edition | Fourth edition |
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| genre | 1\p (DE-588)4123623-3 Lehrbuch gnd-content 2\p (DE-588)1071861417 Konferenzschrift 1981 gnd-content |
| genre_facet | Lehrbuch Konferenzschrift 1981 |
| id | DE-604.BV044244032 |
| illustrated | Illustrated |
| indexdate | 2024-12-24T05:54:53Z |
| institution | BVB |
| isbn | 9780393912036 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029649288 |
| oclc_num | 990398772 |
| open_access_boolean | |
| owner | DE-11 |
| owner_facet | DE-11 |
| physical | xvi, 645, G-14, R-39, A-2, C-8, I-26 Seiten Illustrationen |
| publishDate | 2014 |
| publishDateSearch | 2014 |
| publishDateSort | 2014 |
| publisher | Norton |
| record_format | marc |
| spellingShingle | Gazzaniga, Michael S. 1939- Ivry, Richard B. Mangun, George R. 1956- Cognitive neuroscience the biology of the mind Cognitive neuroscience Neuropsychologie (DE-588)4135740-1 gnd Methode (DE-588)4038971-6 gnd Kognition (DE-588)4031630-0 gnd Neurowissenschaften (DE-588)7555119-6 gnd Gehirn (DE-588)4019752-9 gnd Kognitionswissenschaft (DE-588)4193780-6 gnd Kognitiver Prozess (DE-588)4140177-3 gnd Neurobiologie (DE-588)4041871-6 gnd Kognitive Psychologie (DE-588)4073586-2 gnd |
| subject_GND | (DE-588)4135740-1 (DE-588)4038971-6 (DE-588)4031630-0 (DE-588)7555119-6 (DE-588)4019752-9 (DE-588)4193780-6 (DE-588)4140177-3 (DE-588)4041871-6 (DE-588)4073586-2 (DE-588)4123623-3 (DE-588)1071861417 |
| title | Cognitive neuroscience the biology of the mind |
| title_auth | Cognitive neuroscience the biology of the mind |
| title_exact_search | Cognitive neuroscience the biology of the mind |
| title_full | Cognitive neuroscience the biology of the mind Micael S. Gazzaniga (University of California, Santa Barbara), Richard B. Ivry (University of California, Berekley), George R. Mangun (University of California, Davis) |
| title_fullStr | Cognitive neuroscience the biology of the mind Micael S. Gazzaniga (University of California, Santa Barbara), Richard B. Ivry (University of California, Berekley), George R. Mangun (University of California, Davis) |
| title_full_unstemmed | Cognitive neuroscience the biology of the mind Micael S. Gazzaniga (University of California, Santa Barbara), Richard B. Ivry (University of California, Berekley), George R. Mangun (University of California, Davis) |
| title_short | Cognitive neuroscience |
| title_sort | cognitive neuroscience the biology of the mind |
| title_sub | the biology of the mind |
| topic | Cognitive neuroscience Neuropsychologie (DE-588)4135740-1 gnd Methode (DE-588)4038971-6 gnd Kognition (DE-588)4031630-0 gnd Neurowissenschaften (DE-588)7555119-6 gnd Gehirn (DE-588)4019752-9 gnd Kognitionswissenschaft (DE-588)4193780-6 gnd Kognitiver Prozess (DE-588)4140177-3 gnd Neurobiologie (DE-588)4041871-6 gnd Kognitive Psychologie (DE-588)4073586-2 gnd |
| topic_facet | Cognitive neuroscience Neuropsychologie Methode Kognition Neurowissenschaften Gehirn Kognitionswissenschaft Kognitiver Prozess Neurobiologie Kognitive Psychologie Lehrbuch Konferenzschrift 1981 |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029649288&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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