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LEADER: 12939cam 22007814a 4500
001 ocm47767271
003 OCoLC
005 20191015185101.0
008 010806s2002 nyua b 001 0 eng
010 $a 2001044542
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050 00 $aQP360.5$b.G39 2002
060 00 $a2002 F-897
060 10 $aWL 300$bG291c 2002
082 00 $a612.8/2$221
084 $a77.50$2bcl
100 1 $aGazzaniga, Michael S.
245 10 $aCognitive neuroscience :$bthe biology of the mind /$cMichael S. Gazzaniga, Richard B. Ivry, George R. Mangun.
250 $a2nd ed.
260 $aNew York :$bNorton,$c2002.
300 $axviii, 681, [67] pages :$billustrations (chiefly color) ;$c29 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
338 $avolume$bnc$2rdacarrier
504 $aIncludes bibliographical references and index.
505 00 $g1$tA Brief History of Cognitive Neuroscience$g1 --$tPondering the Big Questions$g1 --$tThe Brain Story$g2 --$tThe Twentieth Century$g11 --$tThe Psychological Story$g15 --$tCognitive Neuroscience$g19 --$tThe Sudden Rise of Brain Imaging$g20 --$g2$tThe Cellular and Molecular Basis of Cognition$g23 --$tCells of the Nervous System$g24 --$tThe structure of neurons$g25 --$tThe role of glial cells$g28 --$tNeuronal Signaling$g31 --$tOverview of neuronal communication$g31 --$tProperties of the neuronal membrane and the membrane potential$g31 --$tElectrical conduction in neurons$g35 --$tTransmembrane proteins: Ion channels and pumps$g50 --$tSynaptic Transmission$g52 --$tChemical transmission$g53 --$tElectrical transmission$g54 --$tNeurotransmitters$g56 --$g3$tGross and Functional Anatomy of Cognition$g62 --$tNeuroanatomy$g63 --$tMethods in neuroanatomy$g63 --$tGross and Functional Anatomy of the Nervous System$g70 --$tCerebral cortex$g70 --$tLimbic system, basal ganglia, hippocampus, hypothalamus, and diencephalon$g80 --$tBrainstem$g89 --$tCerebellum$g92 --$tSpinal cord$g92 --$tAutonomic nervous system$g93 --$g4$tThe Methods of Cognitive Neuroscience$g96 --$tWhat is Cognitive Psychology?$g97 --$tMental representations and transformations$g97 --$tCharacterizing mental operations$g99 --$tConstraints on information processing$g101 --$tComputer Modeling$g102 --$tModels are explicit$g103 --$tRepresentations in computer models$g103 --$tModels lead to testable predictions$g104 --$tLimitations with computer models$g105 --$tExperimental Techniques Used with Animals$g106 --$tSingle-cell recording$g106 --$tLesions$g111 --$tGenetic manipulations$g112 --$tNeurology$g113 --$tStructural imaging of neurological damage$g114 --$tCauses of neurological disorders$g115 --$tFunctional neurosurgery$g121 --$tConverging Methods$g123 --$tCognitive deficits following brain damage$g124 --$tVirtual lesions: Transcranial magnetic stimulation$g127 --$tFunctional imaging$g129 --$g5$tPerception and Encoding$g148 --$tDisorders of Perception: A Case Study$g148 --$tOverview of Neural Pathways$g150 --$tThe eye, retina, and receptors$g150 --$tFrom the eye to the central nervous system$g152 --$tParallel Processing in the Visual System$g153 --$tOrganization of the lateral geniculate nucleus$g153 --$tMultiple pathways in the visual cortex$g158 --$tCortical Visual Areas$g160 --$tCellular correlates of visual features$g161 --$tImaging visual areas in humans$g163 --$tAnalysis and representation of visual features$g167 --$tDeficits in Feature Perception$g171 --$tDeficits in color perception: Achromatopsia$g172 --$tDeficits in motion perception: Akinetopsia$g175 --$tDeficits in other aspects of visual perception$g177 --$tIndependent or Convergent Pathways$g177 --$tDissociations of Cortical and Subcortical Visual Pathways$g180 --$tSpatial orientation and object perception in the hamster$g180 --$tBlindsight: Evidence of residual visual function following cortical blindness$g182 --$tFunctions of the retino-collicular pathway in humans$g184 --$tAuditory Perception$g185 --$tOverview of the auditory pathways$g185 --$tComputational goals in audition$g188 --$tConcurrent processing for sound localization$g189 --$g6$tHigher Perceptual Functions$g193 --$tAgnosia: A Case Study$g194 --$tTwo Cortical Pathways for Visual Perception$g195 --$tRepresentational differences between the dorsal and ventral pathways$g198 --$tPerception for identification versus perception for action$g202 --$tComputational Problems in Object Recognition$g205 --$tVariability in sensory information$g205 --$tView-dependent or view-invariant recognition?$g206 --$tShape encoding$g207 --$tGrandmother cells and ensemble coding$g210 --$tSummary of computational issues$g212 --$tFailures of Object Recognition$g213 --$tSubtypes of agnosia$g215 --$tIntegrating parts into wholes$g219 --$tCategory specificity in agnosia$g221 --$tComputational account of category-specific deficits$g224 --$tProsopagnosia$g226 --$tAre faces special?$g227 --$tNeural mechanisms for face perception$g227 --$tDissociations of face and object perception$g231 --$tTwo systems for object recognition$g235 --$tThe Relationship Between Visual Perception, Imagery, and Memory$g237 --$g7$tSelective Attention and Orienting$g244 --$tTheoretical Models of Attention$g245 --$tThe cocktail party effect$g248 --$tEarly- versus late-selection theories$g250 --$tQuantifying attention in perception$g251 --$tNeural Systems in Attention and Selective Perception$g255 --$tNeurophysiology of human attention$g258 --$tAnimal studies of attentional mechanisms$g280 --$tNeurology and Neuropsychology of Attention$g289 --$tExtinction and neglect$g289 --$g8$tLearning and Memory$g301 --$tTheories of Memory$g302 --$tSensory and short-term memory mechanisms$g302 --$tModels of short-term memory$g309 --$tModels of long-term memory$g313 --$tMemory and Brain$g315 --$tHuman memory, brain damage, and amnesia$g317 --$tSummary of amnesia and long-term memory systems$g332 --$tAnimal models of memory$g332 --$tImaging the human brain and memory$g337 --$tCellular Bases of Learning and Memory$g345 --$tLong-term potentiation and the hippocampus$g346 --$g9$tLanguage and the Brain /$rTamara Y. Swaab$g351 --$tTheories of Language$g352 --$tThe storage of words and concepts: The mental lexicon$g352 --$tPerceptual analyses of the linguistic input$g358 --$tThe recognition of words$g368 --$tIntegration of words in sentences$g373 --$tSpeech production$g378 --$tNeuropsychology of Language and Language Disorders$g381 --$tAphasia$g381 --$tNeurophysiology of Language$g391 --$tFunctional neuroimaging of language$g391 --$tElectrophysiology of language$g392 --$g10$tCerebral Lateralization and Specialization$g400 --$tDividing the Mind$g400 --$tPrinciples of Cerebral Organization$g402 --$tAnatomical correlates of hemispheric specialization$g402 --$tMicroanatomical investigations of anatomical asymmetries$g404 --$tHow the Two Hemispheres Communicate$g405 --$tCortical disconnection$g406 --$tFunctional consequences of the split-brain procedure$g408 --$tSpecificity of callosal function$g409 --$tHemispheric Specialization$g410 --$tLanguage and speech$g410 --$tVisuospatial processing$g414 --$tAttention and perception$g415 --$tConverging Evidence of Hemispheric Specialization$g419 --$tFunctional asymmetries in patients with unilateral cortical lesions$g419 --$tFunctional asymmetries in the normal brain$g420 --$tWhat Is Lateralized?$g423 --$tAsymmetries in perceptual representations$g426 --$tAsymmetries in representing spatial relations$g431 --$tRecent theoretical developments concerning hemispheric specialization$g436 --$tVariations in Hemispheric Specialization$g438 --$tThe relation between handedness and left-hemisphere language dominance$g438 --$tHemispheric specialization in nonhumans$g440 --$g11$tThe Control of Action$g445 --$tMotor Structures$g447 --$tMuscles, motor neurons, and the spinal cord$g447 --$tSubcortical motor structures$g449 --$tCortical regions involved in motor control$g451 --$tThe organization of motor areas$g451 --$tComputational Issues in Motor Control$g452 --$tPeripheral control of movement and the role of feedback$g453 --$tThe representation of movement plans$g455 --$tPhysiological Analysis of Motor Pathways$g461 --$tThe neural representation of movement$g461 --$tComparison of Motor Planning and Execution$g469 --$tInternal versus external guidance of movement$g470 --$tShift in cortical control with learning$g472 --$tFunctional Analysis of the Motor System and Movement Disorders$g476 --$tCortical areas$g477 --$tSubcortical areas: The cerebellum and basal ganglia$g485 --$g12$tExecutive Functions and Frontal Lobes$g499 --$tSubdivisions of the Frontal Lobes$g500 --$tThe Lateral Prefrontal Cortex and Working Memory$g502 --$tDistinguishing between stored knowledge and activated information$g502 --$tWorking memory versus associative memory$g504 --$tThe Prefrontal Cortex Participates in Other Memory Domains$g511 --$tThe frontal lobes and the temporal organization of memory$g511 --$tSource memory$g512 --$tComponent Analysis of Prefrontal Cortex$g514 --$tContent-based accounts of functional specialization within lateral prefrontal function$g514 --$tProcess-based accounts of functional specialization within lateral prefrontal function$g515 --$tThe selection of task-relevant information$g519 --$tGoal-Oriented Behavior$g524 --$tPlanning and selecting an action$g525 --$tThe anterior cingulate as a monitoring system$g530 --$g13$tEmotion /$rElizabeth A. Phelps$g537 --$tIssues in the Cognitive Neuroscience of Emotion$g539 --$tDefining emotion$g539 --$tManipulating and measuring emotion$g540 --$tEmotion and cognition$g544 --$tNeural Systems in Emotional Processing$g545 --$tEarly concepts: The limbic system$g545 --$tOrbitofrontal cortex$g546 --$tAmygdala$g553 --$tLaterality$g572 --$tEmotional communication$g572 --$tAffective style$g574 --$g14$tEvolutionary Perspectives /$rLeah Krubitzer$g577 --$tEvolution of the Brain$g578 --$tThe historical underpinning of contemporary evolutionary neurobiology$g578 --$tModern evolutionary neurobiology: Assumptions and aims$g582 --$tFirst Principles$g586 --$tEvolutionary mechanisms$g589 --$tThe Comparative Approach$g590 --$tThe scale of nature revisited$g593 --$tAdaptation and the Brain$g596 --$tAdaptations at multiple brain levels$g597 --$tSexual selection and evolutionary pressures on behavior$g600 --$tSexual abilities and spatial abilities$g600 --$tEvolution and physiology$g602 --$tAdaptive specializations and learning mechanisms$g604 --$tEvolutionary Insights into Human Brain Organization$g607 --$g15$tDevelopment and Plasticity$g611 --$tThe Shaping of the Brain$g611 --$tPerceptual and Cognitive Development$g613 --$tA classic theory of cognitive development$g613 --$tDevelopment of visual cognition -- Object recognition$g619 --$tDevelopment of the human attention system$g620 --$tLanguage acquisition during development$g623 --$tSummary of cognitive development$g628.
650 0 $aCognitive neuroscience.
650 12 $aBrain$xphysiology.
650 22 $aCognition$xphysiology.
650 22 $aCognitive Science.
650 22 $aNeuropsychology.
650 7 $aCognitive neuroscience.$2fast$0(OCoLC)fst00866540
650 17 $aNeuropsychologie.$2gtt
650 17 $aCognitieve processen.$2gtt
650 7 $aNeurobiologie$2gnd
650 7 $aKognitive Psychologie$2gnd
650 7 $aNeuropsychologie$2gnd
650 7 $aPsicologia cognitiva.$2larpcal
650 7 $aControle motor.$2larpcal
650 7 $aSistema nervoso.$2larpcal
650 7 $aMemo ria.$2larpcal
650 7 $aPercepc ʹa o.$2larpcal
700 1 $aIvry, Richard B.
700 1 $aMangun, G. R.$q(George Ronald),$d1956-
856 42 $3The Louis A. Duhring Fund Home Page$uhttp://hdl.library.upenn.edu/1017.12/366308
856 42 $3The Class of 1932 Fund Home Page$uhttp://hdl.library.upenn.edu/1017.12/366302
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