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· 분류 : 외국도서 > 의학 > 신경과학
· ISBN : 9780123757319
· 쪽수 : 744쪽
목차
I: FOUNDATIONS
Chapter 1: Computational Foundations for Attentive Processes
Chapter 2: Capacity Limits for Spatial Discrimination
Chapter 3: Directed Visual Attention and the Dynamic Control of Information Flow
Chapter 4: Selective Attention as an Optimal Computational Strategy
Chapter 5: Surprise: A Shortcut for Attention?
Chapter 6: A Heteromodal Large-Scale Network for Spatial Attention
Chapter 7: Parietal Mechanisms of Attentional Control: Locations, Features, and Objects
Chapter 8: Visual Cortical Circuits and Spatial Attention
Chapter 9: Psychopharmacology of Human Attention
Chapter 10: Neuropharmacology of Attention
Chapter 11: Identifying the Neural Systems of Top-Down Attentional Control: A Meta-analytic Approach
Chapter 12: Attention Capture: The Interplay of Expectations, Attention, and Awareness
Chapter 13: Change Blindness
Chapter 14: Development of Covert Orienting in Young Infants
Chapter 15: Prior Entry
Chapter 16: Inhibition of Return
Chapter 17: Guidance of Visual Search by Preattentive Information
Chapter 18: The Top in Top-Down Attention
Chapter 19: Allocation of Attention in Three-Dimensional Space
Chapter 20: Covert Attention and Saccadic Eye Movements
Chapter 21: Prefrontal Selection and Control of Covert and Overt Orienting
Chapter 22: Dissociation of Selection from Saccade Programming
Chapter 23: Space- and Object-Based Attention
Chapter 24: Attention and Binding
Chapter 25: Top-Down Facilitation of Visual Object Recognition
Chapter 26: Spatial Processing of Environmental Representations
Chapter 27: Decision and Attention
Chapter 28: Visual Attention and Emotional Perception
Chapter 29: The Difference between Visual Attention and Awareness: A Cognitive Neuroscience Perspective
Chapter 30: Reaching Affects Saccade Trajectories
Chapter 31: The Premotor Theory of Attention
Chapter 32: Cross-Modal Consequences of Human Spatial Attention
Chapter 33: Attention and Scene Understanding
II: FUNCTIONS
Chapter 34: Visual Search and Popout in Infancy
Chapter 35: Attention in Conditioning
Chapter 36: Electrophysiology of Reflexive Attention
Chapter 37: Natural Scene Statistics and Salient Visual Features
Chapter 38: Salience of Feature Contrast
Chapter 39: Stimulus-Driven Guidance of Visual Attention in Natural Scenes
Chapter 40: Contextual Guidance of Visual Attention
Chapter 41: Gist of the Scene
Chapter 42: Temporal Orienting of Attention
Chapter 43: Visual Search: The Role of Memory for Rejected Distractors
Chapter 44: The Neuropsychology of Visual Feature Binding
Chapter 45: Visual Saliency and Spike Timing in the Ventral Visual Pathway
Chapter 46: Object Recognition in Cortex: Neural Mechanisms, and Possible Roles for Attention
Chapter 47: Binding Contour Segments into Spatially Extended Objects
Chapter 48: Scanpath Theory, Attention, and Image Processing Algorithms for Predicting Human Eye Fixations
Chapter 49: The Feature Similarity Gain Model of Attention: Unifying Multiplicative Effects of Spatial and Feature-based Attention
Chapter 50: Biasing Competition in Human Visual Cortex
Chapter 51: Nonsensory Signals in Early Visual Cortex
Chapter 52: Effects of Attention on Auditory Perceptual Organization
Chapter 53: Attention in Language
Chapter 54: Attention and Spatial Language
Chapter 55: The Sustained Attention to Response Test (SART)
Chapter 56: ERP Measures of Multiple Attention Deficits Following Prefrontal Damage
Chapter 57: Nonspatially Lateralized Mechanisms in Hemispatial Neglect
Chapter 58: Visual Extinction and Hemispatial Neglect after Brain Damage: Neurophysiological Basis of Residual Processing
Chapter 59: Attention in Split-Brain Patients
Chapter 60: Divided Attention in the Normal and the Split Brain: Chronometry and Imaging
III: MECHANISMS
Chapter 61: Neurophysiological Correlates of the Attentional Spotlight
Chapter 62: Spatially-Specific Attentional Modulation Revealed by fMRI
Chapter 63: The Neural Basis of the Attentional Blink
Chapter 64: Neurophysiological Correlates of the Reflexive Orienting of Spatial Attention
Chapter 65: Specifying the Components of Attention in a Visual Search Task
Chapter 66: Neural Evidence for Object-based Attention
Chapter 67: Location- or Feature-based Targeting of Spatial Attention
Chapter 68: Dimension-based Attention in Pop-out Search
Chapter 69: Irrelevant Singletons Capture Attention
Chapter 70: Attentional Modulation of Apparent Stimulus Contrast
Chapter 71: Attentional Suppression Early in the Macaque Visual System
Chapter 72: Attentional Modulation in the Human Lateral Geniculate Nucleus and Pulvinar
Chapter 73: Transient Covert Attention Increases Contrast Sensitivity and Spatial Resolution: Support for Signal Enhancement
Chapter 74: External Noise Distinguishes Mechanisms of Attention
Chapter 75: Attentional Modulation and Changes in Effective Connectivity
Chapter 76: Attentional Modulation of Surround Inhibition
Chapter 77: Attentional Processes in Texture Perception
Chapter 78: Mechanisms of Perceptual Learning
Chapter 79: Lateral Interactions between Targets and Flankers Require Attention
Chapter 80: Attention and Changes in Neural Selectivity
Chapter 81: Attentional Effects on Motion Processing
Chapter 82: ERP Studies of Selective Attention to Nonspatial Features
Chapter 83: Effects of Attention on Figure-Ground Responses in the Primary Visual Cortex during Working Memory
Chapter 84: Electrophysiological and Neuroimaging Approaches to the Study of Visual Attention
Chapter 85: The Timing of Attentional Modulation of Visual Processing as Indexed by ERPs
Chapter 86: Selective Visual Attention Modulates Oscillatory Neuronal Synchronization
Chapter 87: Putative Role of Oscillations and Synchrony in Cortical Signal Processing and Attention
Chapter 88: Attention to Tactile Stimuli Increases Neural Synchrony in Somatosensory Cortex
Chapter 89: Crossmodal Attention in Event Perception
IV: SYSTEMS
Chapter 90: The FeatureGate Model of Visual Selection
Chapter 91: Probabilistic Models of Attention Based on Iconic Representations and Predictive Coding
Chapter 92: The Selective Tuning Model for Visual Attention
Chapter 93: The Primary Visual Cortex Creates a Bottom-up Saliency Map
Chapter 94: Models of Bottom-up Attention and Saliency
Chapter 95: Saliency in Computer Vision
Chapter 96: Contextual Influences on Saliency
Chapter 97: A Neurodynamical Model of Visual Attention
Chapter 98: How the Detection of Objects in Natural Scenes Constrains Attention in Time
Chapter 99: Memory-Driven Visual Attention: An Emergent Behavior of Map-Seeking Circuits
Chapter 100: The Role of Short-Term Memory in Visual Attention
Chapter 101: Scene Segmentation through Synchronization
Chapter 102: Attentive Wide-Field Sensing for Visual Telepresence and Surveillance
Chapter 103: Neuromorphic Selective Attention Systems
Chapter 104: The Role of Visual Attention in the Control of Locomotion
Chapter 105: Attention Architectures for Machine Vision and Mobile Robots
Chapter 106: Attention for Computer Graphics Rendering
Chapter 107: Linking Attention to Learning, Expectation, Competition, and Consciousness
Chapter 108: Attention-Guided Recognition Based on “What? and “Where?: Representations: A Behavioral Model
Chapter 109: A Model of Attention and Recognition by Information Maximization
Index