Verfügbarkeit: Sensorimotor cognition and natural language syntax /

Sensorimotor cognition and natural language syntax /:

A proposal that the syntactic structure of a sentence reporting a concrete episode in the world can be interpreted as a description of the sensorimotor processes involved in experiencing that episode.

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Bibliographische Detailangaben
1. Verfasser:	Knott, Alistair, 1967-
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cambridge, Mass. : MIT Press, ©2012. ©2012
Schlagworte:	Grammar, Comparative and general > Syntax. Cognitive grammar. Sensorimotor integration. Minimalist theory (Linguistics) Psycholinguistics. Syntaxe. Grammaire cognitive. Intégration sensorimotrice. Minimalisme (Linguistique) Psycholinguistique. psycholinguistics. LANGUAGE ARTS & DISCIPLINES > Linguistics > Psycholinguistics. Cognitive grammar Grammar, Comparative and general > Syntax Psycholinguistics Sensorimotor integration LINGUISTICS & LANGUAGE/General COGNITIVE SCIENCES/General NEUROSCIENCE/General Electronic book.
Online-Zugang:	Volltext
Zusammenfassung:	A proposal that the syntactic structure of a sentence reporting a concrete episode in the world can be interpreted as a description of the sensorimotor processes involved in experiencing that episode.
Beschreibung:	1 online resource (xi, 392 pages) : illustrations
Bibliographie:	Includes bibliographical references (pages 351-387) and index.
ISBN:	1283707527 9781283707527 0262305429 9780262305426

Internformat

MARC


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245	1	0	\|a Sensorimotor cognition and natural language syntax / \|c Alistair Knott.
260			\|a Cambridge, Mass. : \|b MIT Press, \|c ©2012.
264		4	\|c ©2012
300			\|a 1 online resource (xi, 392 pages) : \|b illustrations
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504			\|a Includes bibliographical references (pages 351-387) and index.
520			\|a A proposal that the syntactic structure of a sentence reporting a concrete episode in the world can be interpreted as a description of the sensorimotor processes involved in experiencing that episode.
588	0		\|a Print version record.
505	0	0	\|g Machine generated contents note: \|g 1. \|t Introduction -- \|g 1.1. \|t Shared Mechanisms Hypothesis -- \|g 1.1.1. \|t General Motivations for the Shared Mechanisms Hypothesis -- \|g 1.1.2. \|t Specific Model of Shared Mechanisms: Reference to Existing Syntactic and Sensorimotor Models -- \|g 1.2. \|t Overview of the Argument of the Book -- \|g 1.3. \|t Some Objections -- \|g 1.3.1. \|t Abstract Sentences -- \|g 1.3.2. \|t Levels of Representation -- \|g 1.3.3. \|t Unfalsifiability -- \|g 1.3.4. \|t Differences between Languages -- \|g 1.3.5. \|t Syntactic Structure Does Not Determine Semantics -- \|g 1.4. \|t Structure of the Book -- \|g 1.5. \|t How to Read the Book -- \|g 2. \|t Sensorimotor Processing during the Execution and Perception of Reach-to-Grasp Actions: A Review -- \|g 2.1. \|t Early Visual System: Lateral Geniculate Nuclei, V1, V2, V3, and V4 -- \|g 2.2. \|t Object Classification Pathway: Inferotemporal Cortex -- \|g 2.2.1. \|t Object Categorization in Humans -- \|g 2.2.2. \|t Top-Down Influences on Object Categorization -- \|g 2.3. \|t Posterior Parietal Cortex: Vision for Attention and Action -- \|g 2.4. \|t Vision for Attentional Selection: LIP and the Frontal Eye Fields -- \|g 2.4.1. \|t LIP and FEF Cells Encode Salient Visual Stimuli and Associated Eye Movements -- \|g 2.4.2. \|t LIP/FEF Cells Also Encode Top-Down Attentional Influences -- \|g 2.4.3. \|t Spatial Attention and Object Classification -- \|g 2.4.4. \|t Coordinate Systems of LIP and FEF Cells -- \|g 2.4.5. \|t Visual Search by Inhibition of Return -- \|g 2.5. \|t Vision for Action: The Reach-to-Grasp Motor Circuits -- \|g 2.5.1. \|t Primary Motor Cortex (F1) -- \|g 2.5.2. \|t Reach Pathway -- \|g 2.5.3. \|t Grasp Pathway -- \|g 2.5.4. \|t Endpoint of the Reach-to-Grasp Action: The Haptic Interface -- \|g 2.6. \|t Planning Higher-Level Actions: Prefrontal Cortex and Higher Motor Areas -- \|g 2.6.1. \|t Representation of Action Categories in the Motor System -- \|g 2.6.2. \|t Top-Down Action Biasing in PFC: Miller and Cohen's Model -- \|g 2.6.3. \|t Summary -- \|g 2.7. \|t Action Recognition Pathway -- \|g 2.7.1. \|t Attentional Structure of Reach-to-Grasp Action Observation -- \|g 2.7.2. \|t STS: Biological Motion Recognition, Joint Attention, and Target Anticipation -- \|g 2.7.3. \|t Mirror Neurons in F5 -- \|g 2.7.4. \|t Mirror Neurons in Inferior Parietal Cortex -- \|g 2.7.5. \|t Model of the Mirror Neuron Circuit -- \|g 2.7.6. \|t Activation of Goal Representations during Action Recognition -- \|g 2.7.7. \|t Comparison with Other Models of Mirror Neurons -- \|g 2.7.8. \|t Endpoint of Grasp Observation: Visual Perception of Contact -- \|g 2.8. \|t Distinctions between Executed and Observed Actions: Representation of Self versus Other -- \|g 2.8.1. \|t Brain Regions with Differential Activation during Observed and Executed Actions -- \|g 2.8.2. \|t Match Model of Agency -- \|g 2.8.3. \|t Mode-Setting Model of Agency -- \|g 2.8.4. \|t Attention-to-self: Action Execution Revisited -- \|g 2.9. \|t Summary: The Pathways Involved in Perception and Execution of Reach-to-Grasp Actions -- \|g 2.10. \|t Order of Sensorimotor Events during the Execution and Perception of Reach Actions -- \|g 2.10.1. \|t Theoretical Framework: Deictic Routines -- \|g 2.10.2. \|t Sequence of Processes during Execution of a Reach Action -- \|g 2.10.3. \|t Sequence of Processes during Perception of a Reach Action -- \|g 2.11. \|t Summary -- \|g 3. \|t Models of Learning and Memory for Sensorimotor Sequences -- \|g 3.1. \|t Baddeley's Model of Working Memory -- \|g 3.1.1. \|t Visuospatial Sketchpad -- \|g 3.1.2. \|t Phonological Loop -- \|g 3.1.3. \|t Episodic Buffer -- \|g 3.2. \|t Working Memory Representations of Action Sequences in PFC -- \|g 3.2.1. \|t Competitive Queuing -- \|g 3.2.2. \|t Associative Chaining -- \|g 3.2.3. \|t PFC Sequencing Models and the Reach-to-Grasp Action -- \|g 3.2.4. \|t Reinforcement Regimes for Learning PFC Sequence Plans -- \|g 3.2.5. \|t Summary -- \|g 3.3. \|t Competition between PFC Plan Assemblies -- \|g 3.3.1. \|t Evidence for Multiple Alternative Plans in Dorsolateral PFC -- \|g 3.3.2. \|t Possible Role for Posterior PFC and the SMA in Plan Selection -- \|g 3.3.3. \|t Plan Termination and the Pre-SMA -- \|g 3.4. \|t PFC Plan Activation during Action Recognition -- \|g 3.4.1. \|t Attend-to-Other Operation -- \|g 3.4.2. \|t Abductive Inference of PFC States -- \|g 3.4.3. \|t Training the Abductive Network -- \|g 3.4.4. \|t Time-Course of Plan Activation during Action Recognition -- \|g 3.5. \|t Replaying PFC Plans: Simulation Mode -- \|g 3.5.1. \|t Working Memory Episodes -- \|g 3.6. \|t Episodic Memory and the Hippocampal System -- \|g 3.6.1. \|t Hippocampus as an Autoassociative Network -- \|g 3.6.2. \|t Episodic Memory and Context Representations -- \|g 3.6.3. \|t Hippocampus as a Convergence Zone -- \|g 3.6.4. \|t Representation of Individuals in Long-Term Memory -- \|g 3.7. \|t Hippocampal Episode Representations as Sequences -- \|g 3.7.1. \|t Storage of Fine-Grained Temporal Sequences in the Hippocampus -- \|g 3.7.2. \|t Cortical Associations of Hippocampal Sequences -- \|g 3.7.3. \|t Model of Sequence Encoding in the Hippocampus -- \|g 3.7.4. \|t Example: Storing Two Successive Episodes in the Hippocampal System -- \|g 3.8. \|t Cortical Mechanisms for Encoding and Retrieval of Episodic Memories -- \|g 3.8.1. \|t Cortical Operations Involved in Encoding Episodic Memories -- \|g 3.8.2. \|t Cortical Processes Involved in Access of Episodic Memories -- \|g 3.9. \|t Summary: Cognitive Processes Occurring during the Replay of a Grasp Episode -- \|g 3.10. \|t Assessment of the Sensorimotor Model -- \|g 4. \|t Syntactic Framework: Minimalism -- \|g 4.1. \|t What Is a Syntactic Analysis? -- \|g 4.2. \|t Phonetic Form and Logical Form -- \|g 4.3. \|t X-Bar Theory -- \|g 4.4. \|t Structure of a Transitive Clause at LF: Overview -- \|g 4.5. \|t IP Projection -- \|g 4.6. \|t DP-Movement and Case Assignment -- \|g 4.7. \|t VP-Internal Subject Hypothesis -- \|g 4.8. \|t AgrP Projection -- \|g 4.8.1. \|t Motivating AgrP: An Argument from SOV Word Order -- \|g 4.8.2. \|t Pollock's Argument for AgrP -- \|g 4.9. \|t Summary: Strengths and Weaknesses of the Minimalist Model -- \|g 5. \|t Relationship between Syntax and Sensorimotor Structure -- \|g 5.1. \|t Summary of the Sensorimotor Model -- \|g 5.2. \|t Sensorimotor Interpretation of the LF of The man grabbed a cup: Overview -- \|g 5.3. \|t Sensorimotor Characterization of the X-Bar Schema -- \|g 5.4. \|t Sensorimotor Interpretation of the LF of The man grabbed a cup -- \|g 5.4.1. \|t I and Agr as Attentional Actions -- \|g 5.4.2. \|t Sensorimotor Account of DP Movement and Case -- \|g 5.4.3. \|t Sensorimotor Interpretation of Head Movement -- \|g 5.5. \|t Role of LF Revisited -- \|g 5.5.1. \|t Sensorimotor Interpretation of the Generative Process -- \|g 5.5.2. \|t LF as a Representation of Sentence Meaning -- \|g 5.6. \|t Predictions of the Sensorimotor Account of LF: Looking at Some Other Syntactic Constructions -- \|g 5.6.1. \|t Control Constructions -- \|g 5.6.2. \|t Finite Clausal Complements -- \|g 5.6.3. \|t Questions and V-to-C Raising -- \|g 5.7. \|t Summary -- \|g 6. \|t Linguistic Representations in the Brain: Current Models of Localization and Development -- \|g 6.1. \|t Neural Substrates of Language -- \|g 6.1.1. \|t Neural Locus of Phonological Representations -- \|g 6.1.2. \|t Neural Representations of the Semantics of Concrete Nouns and Verbs -- \|g 6.1.3. \|t Neural Representation of Words -- \|g 6.1.4. \|t Neural Locus of Syntactic Processing -- \|g 6.2. \|t Basic Stages of Language Development -- \|g 6.2.1. \|t Preliminaries for Word Learning: Phonological Word Representations and Sensorimotor Concepts -- \|g 6.2.2. \|t Learning the Meanings of Individual Words -- \|g 6.2.3. \|t Infants' Earliest Single-Word Utterances -- \|g 6.2.4. \|t Learning Syntax: Early Developmental Stages -- \|g 6.2.5. \|t Learning Syntax: Nativist and Empiricist Models -- \|g 7. \|t New Computational Model of Language Development and Language Processing -- \|g 7.1. \|t Learning Single-Word Meanings and the Concept of a Communicative Action -- \|g 7.1.1. \|t Network for Cross-Situational Word Meaning Learning -- \|g 7.1.2. \|t Modeling the Development of the Concept of a Communicative Action and Its Role in Word Learning -- \|g 7.1.3. \|t Representation of Communicative Actions and Intentions -- \|g 7.2. \|t Learning to Generate Syntactically Structured Utterances -- \|g 7.2.1. \|t Word Production Network: Producing Single-Word Utterances -- \|g 7.2.2. \|t Control Network: Generating Word.
505	0	0	\|t Sequences from Sensorimotor Sequences -- \|g 7.2.3. \|t Word Sequencing Network for Learning Surface Patterns in Language -- \|g 7.2.4. \|t Network Combining Sensorimotor and Surface-Based Word-Sequencing Mechanisms -- \|g 7.2.5. \|t Some Preliminary Ideas about Sentence Comprehension -- \|g 7.2.6. \|t Model's Relationship to Psycholinguistic Models of Sentence Production -- \|g 7.3. \|t Summary and Some Interim Conclusions -- \|g 8. \|t Summary, Comparisons, and Conclusions -- \|g 8.1. \|t Summary of the Proposals in This Book -- \|g 8.2. \|t Comparison with Other Embodied Models of Language and Cognition -- \|g 8.3. \|t Nativist-Empiricist Debate about Language.
546			\|a English.
650		0	\|a Grammar, Comparative and general \|x Syntax. \|0 http://id.loc.gov/authorities/subjects/sh85056338
650		0	\|a Cognitive grammar. \|0 http://id.loc.gov/authorities/subjects/sh86004349
650		0	\|a Sensorimotor integration. \|0 http://id.loc.gov/authorities/subjects/sh85120056
650		0	\|a Minimalist theory (Linguistics) \|0 http://id.loc.gov/authorities/subjects/sh95003803
650		0	\|a Psycholinguistics. \|0 http://id.loc.gov/authorities/subjects/sh85108432
650		6	\|a Syntaxe.
650		6	\|a Grammaire cognitive.
650		6	\|a Intégration sensorimotrice.
650		6	\|a Minimalisme (Linguistique)
650		6	\|a Psycholinguistique.
650		7	\|a psycholinguistics. \|2 aat
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650		7	\|a Minimalist theory (Linguistics) \|2 fast
650		7	\|a Psycholinguistics \|2 fast
650		7	\|a Sensorimotor integration \|2 fast
653			\|a LINGUISTICS & LANGUAGE/General
653			\|a COGNITIVE SCIENCES/General
653			\|a NEUROSCIENCE/General
655		4	\|a Electronic book.
776	0	8	\|i Print version: \|a Knott, Alistair, 1967- \|t Sensorimotor cognition and natural language syntax. \|d Cambridge, Mass. : MIT Press, ©2012 \|z 9780262017763 \|w (DLC) 2012002926 \|w (OCoLC)779470253
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contents	Introduction -- Shared Mechanisms Hypothesis -- General Motivations for the Shared Mechanisms Hypothesis -- Specific Model of Shared Mechanisms: Reference to Existing Syntactic and Sensorimotor Models -- Overview of the Argument of the Book -- Some Objections -- Abstract Sentences -- Levels of Representation -- Unfalsifiability -- Differences between Languages -- Syntactic Structure Does Not Determine Semantics -- Structure of the Book -- How to Read the Book -- Sensorimotor Processing during the Execution and Perception of Reach-to-Grasp Actions: A Review -- Early Visual System: Lateral Geniculate Nuclei, V1, V2, V3, and V4 -- Object Classification Pathway: Inferotemporal Cortex -- Object Categorization in Humans -- Top-Down Influences on Object Categorization -- Posterior Parietal Cortex: Vision for Attention and Action -- Vision for Attentional Selection: LIP and the Frontal Eye Fields -- LIP and FEF Cells Encode Salient Visual Stimuli and Associated Eye Movements -- LIP/FEF Cells Also Encode Top-Down Attentional Influences -- Spatial Attention and Object Classification -- Coordinate Systems of LIP and FEF Cells -- Visual Search by Inhibition of Return -- Vision for Action: The Reach-to-Grasp Motor Circuits -- Primary Motor Cortex (F1) -- Reach Pathway -- Grasp Pathway -- Endpoint of the Reach-to-Grasp Action: The Haptic Interface -- Planning Higher-Level Actions: Prefrontal Cortex and Higher Motor Areas -- Representation of Action Categories in the Motor System -- Top-Down Action Biasing in PFC: Miller and Cohen's Model -- Summary -- Action Recognition Pathway -- Attentional Structure of Reach-to-Grasp Action Observation -- STS: Biological Motion Recognition, Joint Attention, and Target Anticipation -- Mirror Neurons in F5 -- Mirror Neurons in Inferior Parietal Cortex -- Model of the Mirror Neuron Circuit -- Activation of Goal Representations during Action Recognition -- Comparison with Other Models of Mirror Neurons -- Endpoint of Grasp Observation: Visual Perception of Contact -- Distinctions between Executed and Observed Actions: Representation of Self versus Other -- Brain Regions with Differential Activation during Observed and Executed Actions -- Match Model of Agency -- Mode-Setting Model of Agency -- Attention-to-self: Action Execution Revisited -- Summary: The Pathways Involved in Perception and Execution of Reach-to-Grasp Actions -- Order of Sensorimotor Events during the Execution and Perception of Reach Actions -- Theoretical Framework: Deictic Routines -- Sequence of Processes during Execution of a Reach Action -- Sequence of Processes during Perception of a Reach Action -- Models of Learning and Memory for Sensorimotor Sequences -- Baddeley's Model of Working Memory -- Visuospatial Sketchpad -- Phonological Loop -- Episodic Buffer -- Working Memory Representations of Action Sequences in PFC -- Competitive Queuing -- Associative Chaining -- PFC Sequencing Models and the Reach-to-Grasp Action -- Reinforcement Regimes for Learning PFC Sequence Plans -- Competition between PFC Plan Assemblies -- Evidence for Multiple Alternative Plans in Dorsolateral PFC -- Possible Role for Posterior PFC and the SMA in Plan Selection -- Plan Termination and the Pre-SMA -- PFC Plan Activation during Action Recognition -- Attend-to-Other Operation -- Abductive Inference of PFC States -- Training the Abductive Network -- Time-Course of Plan Activation during Action Recognition -- Replaying PFC Plans: Simulation Mode -- Working Memory Episodes -- Episodic Memory and the Hippocampal System -- Hippocampus as an Autoassociative Network -- Episodic Memory and Context Representations -- Hippocampus as a Convergence Zone -- Representation of Individuals in Long-Term Memory -- Hippocampal Episode Representations as Sequences -- Storage of Fine-Grained Temporal Sequences in the Hippocampus -- Cortical Associations of Hippocampal Sequences -- Model of Sequence Encoding in the Hippocampus -- Example: Storing Two Successive Episodes in the Hippocampal System -- Cortical Mechanisms for Encoding and Retrieval of Episodic Memories -- Cortical Operations Involved in Encoding Episodic Memories -- Cortical Processes Involved in Access of Episodic Memories -- Summary: Cognitive Processes Occurring during the Replay of a Grasp Episode -- Assessment of the Sensorimotor Model -- Syntactic Framework: Minimalism -- What Is a Syntactic Analysis? -- Phonetic Form and Logical Form -- X-Bar Theory -- Structure of a Transitive Clause at LF: Overview -- IP Projection -- DP-Movement and Case Assignment -- VP-Internal Subject Hypothesis -- AgrP Projection -- Motivating AgrP: An Argument from SOV Word Order -- Pollock's Argument for AgrP -- Summary: Strengths and Weaknesses of the Minimalist Model -- Relationship between Syntax and Sensorimotor Structure -- Summary of the Sensorimotor Model -- Sensorimotor Interpretation of the LF of The man grabbed a cup: Overview -- Sensorimotor Characterization of the X-Bar Schema -- Sensorimotor Interpretation of the LF of The man grabbed a cup -- I and Agr as Attentional Actions -- Sensorimotor Account of DP Movement and Case -- Sensorimotor Interpretation of Head Movement -- Role of LF Revisited -- Sensorimotor Interpretation of the Generative Process -- LF as a Representation of Sentence Meaning -- Predictions of the Sensorimotor Account of LF: Looking at Some Other Syntactic Constructions -- Control Constructions -- Finite Clausal Complements -- Questions and V-to-C Raising -- Linguistic Representations in the Brain: Current Models of Localization and Development -- Neural Substrates of Language -- Neural Locus of Phonological Representations -- Neural Representations of the Semantics of Concrete Nouns and Verbs -- Neural Representation of Words -- Neural Locus of Syntactic Processing -- Basic Stages of Language Development -- Preliminaries for Word Learning: Phonological Word Representations and Sensorimotor Concepts -- Learning the Meanings of Individual Words -- Infants' Earliest Single-Word Utterances -- Learning Syntax: Early Developmental Stages -- Learning Syntax: Nativist and Empiricist Models -- New Computational Model of Language Development and Language Processing -- Learning Single-Word Meanings and the Concept of a Communicative Action -- Network for Cross-Situational Word Meaning Learning -- Modeling the Development of the Concept of a Communicative Action and Its Role in Word Learning -- Representation of Communicative Actions and Intentions -- Learning to Generate Syntactically Structured Utterances -- Word Production Network: Producing Single-Word Utterances -- Control Network: Generating Word. Sequences from Sensorimotor Sequences -- Word Sequencing Network for Learning Surface Patterns in Language -- Network Combining Sensorimotor and Surface-Based Word-Sequencing Mechanisms -- Some Preliminary Ideas about Sentence Comprehension -- Model's Relationship to Psycholinguistic Models of Sentence Production -- Summary and Some Interim Conclusions -- Summary, Comparisons, and Conclusions -- Summary of the Proposals in This Book -- Comparison with Other Embodied Models of Language and Cognition -- Nativist-Empiricist Debate about Language.
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"><subfield code="a">(OCoLC)819506264</subfield><subfield code="z">(OCoLC)815383297</subfield><subfield code="z">(OCoLC)961674295</subfield><subfield code="z">(OCoLC)962591785</subfield><subfield code="z">(OCoLC)988499062</subfield><subfield code="z">(OCoLC)990752237</subfield><subfield code="z">(OCoLC)992055698</subfield><subfield code="z">(OCoLC)994927327</subfield><subfield code="z">(OCoLC)1037902281</subfield><subfield code="z">(OCoLC)1038570409</subfield><subfield code="z">(OCoLC)1045498107</subfield><subfield code="z">(OCoLC)1055334492</subfield><subfield code="z">(OCoLC)1064677905</subfield><subfield code="z">(OCoLC)1081259134</subfield><subfield code="z">(OCoLC)1137141947</subfield><subfield code="z">(OCoLC)1153510419</subfield><subfield code="z">(OCoLC)1162573761</subfield><subfield code="z">(OCoLC)1167550225</subfield><subfield code="z">(OCoLC)1228533067</subfield><subfield code="z">(OCoLC)1241945601</subfield><subfield code="z">(OCoLC)1286904477</subfield><subfield code="z">(OCoLC)1290055359</subfield><subfield code="z">(OCoLC)1300701456</subfield></datafield><datafield tag="037" ind1=" " ind2=" "><subfield code="a">8938</subfield><subfield code="b">MIT Press</subfield></datafield><datafield tag="037" ind1=" " ind2=" "><subfield code="a">9780262305426</subfield><subfield code="b">MIT Press</subfield></datafield><datafield tag="050" ind1=" " ind2="4"><subfield code="a">P291</subfield></datafield><datafield tag="072" ind1=" " ind2="7"><subfield code="a">LAN</subfield><subfield code="x">009040</subfield><subfield code="2">bisacsh</subfield></datafield><datafield tag="082" ind1="7" ind2=" "><subfield code="a">401/.9</subfield><subfield code="2">23</subfield></datafield><datafield tag="049" ind1=" " ind2=" "><subfield code="a">MAIN</subfield></datafield><datafield tag="100" ind1="1" ind2=" "><subfield code="a">Knott, Alistair,</subfield><subfield code="d">1967-</subfield><subfield code="0">http://id.loc.gov/authorities/names/n2012014517</subfield></datafield><datafield tag="245" ind1="1" ind2="0"><subfield code="a">Sensorimotor cognition and natural language syntax /</subfield><subfield code="c">Alistair Knott.</subfield></datafield><datafield tag="260" ind1=" " ind2=" "><subfield code="a">Cambridge, Mass. :</subfield><subfield code="b">MIT Press,</subfield><subfield code="c">©2012.</subfield></datafield><datafield tag="264" ind1=" " ind2="4"><subfield code="c">©2012</subfield></datafield><datafield tag="300" ind1=" " ind2=" "><subfield code="a">1 online resource (xi, 392 pages) :</subfield><subfield code="b">illustrations</subfield></datafield><datafield tag="336" ind1=" " ind2=" "><subfield code="a">text</subfield><subfield code="b">txt</subfield><subfield code="2">rdacontent</subfield></datafield><datafield tag="337" ind1=" " ind2=" "><subfield code="a">computer</subfield><subfield code="b">c</subfield><subfield code="2">rdamedia</subfield></datafield><datafield tag="338" ind1=" " ind2=" "><subfield code="a">online resource</subfield><subfield code="b">cr</subfield><subfield code="2">rdacarrier</subfield></datafield><datafield tag="504" ind1=" " ind2=" "><subfield code="a">Includes bibliographical references (pages 351-387) and index.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">A proposal that the syntactic structure of a sentence reporting a concrete episode in the world can be interpreted as a description of the sensorimotor processes involved in experiencing that episode.</subfield></datafield><datafield tag="588" ind1="0" ind2=" "><subfield code="a">Print version record.</subfield></datafield><datafield tag="505" ind1="0" ind2="0"><subfield code="g">Machine generated contents note:</subfield><subfield code="g">1.</subfield><subfield code="t">Introduction --</subfield><subfield code="g">1.1.</subfield><subfield code="t">Shared Mechanisms Hypothesis --</subfield><subfield code="g">1.1.1.</subfield><subfield code="t">General Motivations for the Shared Mechanisms Hypothesis --</subfield><subfield code="g">1.1.2.</subfield><subfield code="t">Specific Model of Shared Mechanisms: Reference to Existing Syntactic and Sensorimotor Models --</subfield><subfield code="g">1.2.</subfield><subfield code="t">Overview of the Argument of the Book --</subfield><subfield code="g">1.3.</subfield><subfield code="t">Some Objections --</subfield><subfield code="g">1.3.1.</subfield><subfield code="t">Abstract Sentences --</subfield><subfield code="g">1.3.2.</subfield><subfield code="t">Levels of Representation --</subfield><subfield code="g">1.3.3.</subfield><subfield code="t">Unfalsifiability --</subfield><subfield code="g">1.3.4.</subfield><subfield code="t">Differences between Languages --</subfield><subfield code="g">1.3.5.</subfield><subfield code="t">Syntactic Structure Does Not Determine Semantics --</subfield><subfield code="g">1.4.</subfield><subfield code="t">Structure of the Book --</subfield><subfield code="g">1.5.</subfield><subfield code="t">How to Read the Book --</subfield><subfield code="g">2.</subfield><subfield code="t">Sensorimotor Processing during the Execution and Perception of Reach-to-Grasp Actions: A Review --</subfield><subfield code="g">2.1.</subfield><subfield code="t">Early Visual System: Lateral Geniculate Nuclei, V1, V2, V3, and V4 --</subfield><subfield code="g">2.2.</subfield><subfield code="t">Object Classification Pathway: Inferotemporal Cortex --</subfield><subfield code="g">2.2.1.</subfield><subfield code="t">Object Categorization in Humans --</subfield><subfield code="g">2.2.2.</subfield><subfield code="t">Top-Down Influences on Object Categorization --</subfield><subfield code="g">2.3.</subfield><subfield code="t">Posterior Parietal Cortex: Vision for Attention and Action --</subfield><subfield code="g">2.4.</subfield><subfield code="t">Vision for Attentional Selection: LIP and the Frontal Eye Fields --</subfield><subfield code="g">2.4.1.</subfield><subfield code="t">LIP and FEF Cells Encode Salient Visual Stimuli and Associated Eye Movements --</subfield><subfield code="g">2.4.2.</subfield><subfield code="t">LIP/FEF Cells Also Encode Top-Down Attentional Influences --</subfield><subfield code="g">2.4.3.</subfield><subfield code="t">Spatial Attention and Object Classification --</subfield><subfield code="g">2.4.4.</subfield><subfield code="t">Coordinate Systems of LIP and FEF Cells --</subfield><subfield code="g">2.4.5.</subfield><subfield code="t">Visual Search by Inhibition of Return --</subfield><subfield code="g">2.5.</subfield><subfield code="t">Vision for Action: The Reach-to-Grasp Motor Circuits --</subfield><subfield code="g">2.5.1.</subfield><subfield code="t">Primary Motor Cortex (F1) --</subfield><subfield code="g">2.5.2.</subfield><subfield code="t">Reach Pathway --</subfield><subfield code="g">2.5.3.</subfield><subfield code="t">Grasp Pathway --</subfield><subfield code="g">2.5.4.</subfield><subfield code="t">Endpoint of the Reach-to-Grasp Action: The Haptic Interface --</subfield><subfield code="g">2.6.</subfield><subfield code="t">Planning Higher-Level Actions: Prefrontal Cortex and Higher Motor Areas --</subfield><subfield code="g">2.6.1.</subfield><subfield code="t">Representation of Action Categories in the Motor System --</subfield><subfield code="g">2.6.2.</subfield><subfield code="t">Top-Down Action Biasing in PFC: Miller and Cohen's Model --</subfield><subfield code="g">2.6.3.</subfield><subfield code="t">Summary --</subfield><subfield code="g">2.7.</subfield><subfield code="t">Action Recognition Pathway --</subfield><subfield code="g">2.7.1.</subfield><subfield code="t">Attentional Structure of Reach-to-Grasp Action Observation --</subfield><subfield code="g">2.7.2.</subfield><subfield code="t">STS: Biological Motion Recognition, Joint Attention, and Target Anticipation --</subfield><subfield code="g">2.7.3.</subfield><subfield code="t">Mirror Neurons in F5 --</subfield><subfield code="g">2.7.4.</subfield><subfield code="t">Mirror Neurons in Inferior Parietal Cortex --</subfield><subfield code="g">2.7.5.</subfield><subfield code="t">Model of the Mirror Neuron Circuit --</subfield><subfield code="g">2.7.6.</subfield><subfield code="t">Activation of Goal Representations during Action Recognition --</subfield><subfield code="g">2.7.7.</subfield><subfield code="t">Comparison with Other Models of Mirror Neurons --</subfield><subfield code="g">2.7.8.</subfield><subfield code="t">Endpoint of Grasp Observation: Visual Perception of Contact --</subfield><subfield code="g">2.8.</subfield><subfield code="t">Distinctions between Executed and Observed Actions: Representation of Self versus Other --</subfield><subfield code="g">2.8.1.</subfield><subfield code="t">Brain Regions with Differential Activation during Observed and Executed Actions --</subfield><subfield code="g">2.8.2.</subfield><subfield code="t">Match Model of Agency --</subfield><subfield code="g">2.8.3.</subfield><subfield code="t">Mode-Setting Model of Agency --</subfield><subfield code="g">2.8.4.</subfield><subfield code="t">Attention-to-self: Action Execution Revisited --</subfield><subfield code="g">2.9.</subfield><subfield code="t">Summary: The Pathways Involved in Perception and Execution of Reach-to-Grasp Actions --</subfield><subfield code="g">2.10.</subfield><subfield code="t">Order of Sensorimotor Events during the Execution and Perception of Reach Actions --</subfield><subfield code="g">2.10.1.</subfield><subfield code="t">Theoretical Framework: Deictic Routines --</subfield><subfield code="g">2.10.2.</subfield><subfield code="t">Sequence of Processes during Execution of a Reach Action --</subfield><subfield code="g">2.10.3.</subfield><subfield code="t">Sequence of Processes during Perception of a Reach Action --</subfield><subfield code="g">2.11.</subfield><subfield code="t">Summary --</subfield><subfield code="g">3.</subfield><subfield code="t">Models of Learning and Memory for Sensorimotor Sequences --</subfield><subfield code="g">3.1.</subfield><subfield code="t">Baddeley's Model of Working Memory --</subfield><subfield code="g">3.1.1.</subfield><subfield code="t">Visuospatial Sketchpad --</subfield><subfield code="g">3.1.2.</subfield><subfield code="t">Phonological Loop --</subfield><subfield code="g">3.1.3.</subfield><subfield code="t">Episodic Buffer --</subfield><subfield code="g">3.2.</subfield><subfield code="t">Working Memory Representations of Action Sequences in PFC --</subfield><subfield code="g">3.2.1.</subfield><subfield code="t">Competitive Queuing --</subfield><subfield code="g">3.2.2.</subfield><subfield code="t">Associative Chaining --</subfield><subfield code="g">3.2.3.</subfield><subfield code="t">PFC Sequencing Models and the Reach-to-Grasp Action --</subfield><subfield code="g">3.2.4.</subfield><subfield code="t">Reinforcement Regimes for Learning PFC Sequence Plans --</subfield><subfield code="g">3.2.5.</subfield><subfield code="t">Summary --</subfield><subfield code="g">3.3.</subfield><subfield code="t">Competition between PFC Plan Assemblies --</subfield><subfield code="g">3.3.1.</subfield><subfield code="t">Evidence for Multiple Alternative Plans in Dorsolateral PFC --</subfield><subfield code="g">3.3.2.</subfield><subfield code="t">Possible Role for Posterior PFC and the SMA in Plan Selection --</subfield><subfield code="g">3.3.3.</subfield><subfield code="t">Plan Termination and the Pre-SMA --</subfield><subfield code="g">3.4.</subfield><subfield code="t">PFC Plan Activation during Action Recognition --</subfield><subfield code="g">3.4.1.</subfield><subfield code="t">Attend-to-Other Operation --</subfield><subfield code="g">3.4.2.</subfield><subfield code="t">Abductive Inference of PFC States --</subfield><subfield code="g">3.4.3.</subfield><subfield code="t">Training the Abductive Network --</subfield><subfield code="g">3.4.4.</subfield><subfield code="t">Time-Course of Plan Activation during Action Recognition --</subfield><subfield code="g">3.5.</subfield><subfield code="t">Replaying PFC Plans: Simulation Mode --</subfield><subfield code="g">3.5.1.</subfield><subfield code="t">Working Memory Episodes --</subfield><subfield code="g">3.6.</subfield><subfield code="t">Episodic Memory and the Hippocampal System --</subfield><subfield code="g">3.6.1.</subfield><subfield code="t">Hippocampus as an Autoassociative Network --</subfield><subfield code="g">3.6.2.</subfield><subfield code="t">Episodic Memory and Context Representations --</subfield><subfield code="g">3.6.3.</subfield><subfield code="t">Hippocampus as a Convergence Zone --</subfield><subfield code="g">3.6.4.</subfield><subfield code="t">Representation of Individuals in Long-Term Memory --</subfield><subfield code="g">3.7.</subfield><subfield code="t">Hippocampal Episode Representations as Sequences --</subfield><subfield code="g">3.7.1.</subfield><subfield code="t">Storage of Fine-Grained Temporal Sequences in the Hippocampus --</subfield><subfield code="g">3.7.2.</subfield><subfield code="t">Cortical Associations of Hippocampal Sequences --</subfield><subfield code="g">3.7.3.</subfield><subfield code="t">Model of Sequence Encoding in the Hippocampus --</subfield><subfield code="g">3.7.4.</subfield><subfield code="t">Example: Storing Two Successive Episodes in the Hippocampal System --</subfield><subfield code="g">3.8.</subfield><subfield code="t">Cortical Mechanisms for Encoding and Retrieval of Episodic Memories --</subfield><subfield code="g">3.8.1.</subfield><subfield code="t">Cortical Operations Involved in Encoding Episodic Memories --</subfield><subfield code="g">3.8.2.</subfield><subfield code="t">Cortical Processes Involved in Access of Episodic Memories --</subfield><subfield code="g">3.9.</subfield><subfield code="t">Summary: Cognitive Processes Occurring during the Replay of a Grasp Episode --</subfield><subfield code="g">3.10.</subfield><subfield code="t">Assessment of the Sensorimotor Model --</subfield><subfield code="g">4.</subfield><subfield code="t">Syntactic Framework: Minimalism --</subfield><subfield code="g">4.1.</subfield><subfield code="t">What Is a Syntactic Analysis? --</subfield><subfield code="g">4.2.</subfield><subfield code="t">Phonetic Form and Logical Form --</subfield><subfield code="g">4.3.</subfield><subfield code="t">X-Bar Theory --</subfield><subfield code="g">4.4.</subfield><subfield code="t">Structure of a Transitive Clause at LF: Overview --</subfield><subfield code="g">4.5.</subfield><subfield code="t">IP Projection --</subfield><subfield code="g">4.6.</subfield><subfield code="t">DP-Movement and Case Assignment --</subfield><subfield code="g">4.7.</subfield><subfield code="t">VP-Internal Subject Hypothesis --</subfield><subfield code="g">4.8.</subfield><subfield code="t">AgrP Projection --</subfield><subfield code="g">4.8.1.</subfield><subfield code="t">Motivating AgrP: An Argument from SOV Word Order --</subfield><subfield code="g">4.8.2.</subfield><subfield code="t">Pollock's Argument for AgrP --</subfield><subfield code="g">4.9.</subfield><subfield code="t">Summary: Strengths and Weaknesses of the Minimalist Model --</subfield><subfield code="g">5.</subfield><subfield code="t">Relationship between Syntax and Sensorimotor Structure --</subfield><subfield code="g">5.1.</subfield><subfield code="t">Summary of the Sensorimotor Model --</subfield><subfield code="g">5.2.</subfield><subfield code="t">Sensorimotor Interpretation of the LF of The man grabbed a cup: Overview --</subfield><subfield code="g">5.3.</subfield><subfield code="t">Sensorimotor Characterization of the X-Bar Schema --</subfield><subfield code="g">5.4.</subfield><subfield code="t">Sensorimotor Interpretation of the LF of The man grabbed a cup --</subfield><subfield code="g">5.4.1.</subfield><subfield code="t">I and Agr as Attentional Actions --</subfield><subfield code="g">5.4.2.</subfield><subfield code="t">Sensorimotor Account of DP Movement and Case --</subfield><subfield code="g">5.4.3.</subfield><subfield code="t">Sensorimotor Interpretation of Head Movement --</subfield><subfield code="g">5.5.</subfield><subfield code="t">Role of LF Revisited --</subfield><subfield code="g">5.5.1.</subfield><subfield code="t">Sensorimotor Interpretation of the Generative Process --</subfield><subfield code="g">5.5.2.</subfield><subfield code="t">LF as a Representation of Sentence Meaning --</subfield><subfield code="g">5.6.</subfield><subfield code="t">Predictions of the Sensorimotor Account of LF: Looking at Some Other Syntactic Constructions --</subfield><subfield code="g">5.6.1.</subfield><subfield code="t">Control Constructions --</subfield><subfield code="g">5.6.2.</subfield><subfield code="t">Finite Clausal Complements --</subfield><subfield code="g">5.6.3.</subfield><subfield code="t">Questions and V-to-C Raising --</subfield><subfield code="g">5.7.</subfield><subfield code="t">Summary --</subfield><subfield code="g">6.</subfield><subfield code="t">Linguistic Representations in the Brain: Current Models of Localization and Development --</subfield><subfield code="g">6.1.</subfield><subfield code="t">Neural Substrates of Language --</subfield><subfield code="g">6.1.1.</subfield><subfield code="t">Neural Locus of Phonological Representations --</subfield><subfield code="g">6.1.2.</subfield><subfield code="t">Neural Representations of the Semantics of Concrete Nouns and Verbs --</subfield><subfield code="g">6.1.3.</subfield><subfield code="t">Neural Representation of Words --</subfield><subfield code="g">6.1.4.</subfield><subfield code="t">Neural Locus of Syntactic Processing --</subfield><subfield code="g">6.2.</subfield><subfield code="t">Basic Stages of Language Development --</subfield><subfield code="g">6.2.1.</subfield><subfield code="t">Preliminaries for Word Learning: Phonological Word Representations and Sensorimotor Concepts --</subfield><subfield code="g">6.2.2.</subfield><subfield code="t">Learning the Meanings of Individual Words --</subfield><subfield code="g">6.2.3.</subfield><subfield code="t">Infants' Earliest Single-Word Utterances --</subfield><subfield code="g">6.2.4.</subfield><subfield code="t">Learning Syntax: Early Developmental Stages --</subfield><subfield code="g">6.2.5.</subfield><subfield code="t">Learning Syntax: Nativist and Empiricist Models --</subfield><subfield code="g">7.</subfield><subfield code="t">New Computational Model of Language Development and Language Processing --</subfield><subfield code="g">7.1.</subfield><subfield code="t">Learning Single-Word Meanings and the Concept of a Communicative Action --</subfield><subfield code="g">7.1.1.</subfield><subfield code="t">Network for Cross-Situational Word Meaning Learning --</subfield><subfield code="g">7.1.2.</subfield><subfield code="t">Modeling the Development of the Concept of a Communicative Action and Its Role in Word Learning --</subfield><subfield code="g">7.1.3.</subfield><subfield code="t">Representation of Communicative Actions and Intentions --</subfield><subfield code="g">7.2.</subfield><subfield code="t">Learning to Generate Syntactically Structured Utterances --</subfield><subfield code="g">7.2.1.</subfield><subfield code="t">Word Production Network: Producing Single-Word Utterances --</subfield><subfield code="g">7.2.2.</subfield><subfield code="t">Control Network: Generating Word.</subfield></datafield><datafield tag="505" ind1="0" ind2="0"><subfield code="t">Sequences from Sensorimotor Sequences --</subfield><subfield code="g">7.2.3.</subfield><subfield code="t">Word Sequencing Network for Learning Surface Patterns in Language --</subfield><subfield code="g">7.2.4.</subfield><subfield code="t">Network Combining Sensorimotor and Surface-Based Word-Sequencing Mechanisms --</subfield><subfield code="g">7.2.5.</subfield><subfield code="t">Some Preliminary Ideas about Sentence Comprehension --</subfield><subfield code="g">7.2.6.</subfield><subfield code="t">Model's Relationship to Psycholinguistic Models of Sentence Production --</subfield><subfield code="g">7.3.</subfield><subfield code="t">Summary and Some Interim Conclusions --</subfield><subfield code="g">8.</subfield><subfield code="t">Summary, Comparisons, and Conclusions --</subfield><subfield code="g">8.1.</subfield><subfield code="t">Summary of the Proposals in This Book --</subfield><subfield code="g">8.2.</subfield><subfield code="t">Comparison with Other Embodied Models of Language and Cognition --</subfield><subfield code="g">8.3.</subfield><subfield code="t">Nativist-Empiricist Debate about Language.</subfield></datafield><datafield tag="546" ind1=" " ind2=" "><subfield code="a">English.</subfield></datafield><datafield tag="650" ind1=" " ind2="0"><subfield code="a">Grammar, Comparative and 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spelling	Knott, Alistair, 1967- http://id.loc.gov/authorities/names/n2012014517 Sensorimotor cognition and natural language syntax / Alistair Knott. Cambridge, Mass. : MIT Press, ©2012. ©2012 1 online resource (xi, 392 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references (pages 351-387) and index. A proposal that the syntactic structure of a sentence reporting a concrete episode in the world can be interpreted as a description of the sensorimotor processes involved in experiencing that episode. Print version record. Machine generated contents note: 1. Introduction -- 1.1. Shared Mechanisms Hypothesis -- 1.1.1. General Motivations for the Shared Mechanisms Hypothesis -- 1.1.2. Specific Model of Shared Mechanisms: Reference to Existing Syntactic and Sensorimotor Models -- 1.2. Overview of the Argument of the Book -- 1.3. Some Objections -- 1.3.1. Abstract Sentences -- 1.3.2. Levels of Representation -- 1.3.3. Unfalsifiability -- 1.3.4. Differences between Languages -- 1.3.5. Syntactic Structure Does Not Determine Semantics -- 1.4. Structure of the Book -- 1.5. How to Read the Book -- 2. Sensorimotor Processing during the Execution and Perception of Reach-to-Grasp Actions: A Review -- 2.1. Early Visual System: Lateral Geniculate Nuclei, V1, V2, V3, and V4 -- 2.2. Object Classification Pathway: Inferotemporal Cortex -- 2.2.1. Object Categorization in Humans -- 2.2.2. Top-Down Influences on Object Categorization -- 2.3. Posterior Parietal Cortex: Vision for Attention and Action -- 2.4. Vision for Attentional Selection: LIP and the Frontal Eye Fields -- 2.4.1. LIP and FEF Cells Encode Salient Visual Stimuli and Associated Eye Movements -- 2.4.2. LIP/FEF Cells Also Encode Top-Down Attentional Influences -- 2.4.3. Spatial Attention and Object Classification -- 2.4.4. Coordinate Systems of LIP and FEF Cells -- 2.4.5. Visual Search by Inhibition of Return -- 2.5. Vision for Action: The Reach-to-Grasp Motor Circuits -- 2.5.1. Primary Motor Cortex (F1) -- 2.5.2. Reach Pathway -- 2.5.3. Grasp Pathway -- 2.5.4. Endpoint of the Reach-to-Grasp Action: The Haptic Interface -- 2.6. Planning Higher-Level Actions: Prefrontal Cortex and Higher Motor Areas -- 2.6.1. Representation of Action Categories in the Motor System -- 2.6.2. Top-Down Action Biasing in PFC: Miller and Cohen's Model -- 2.6.3. Summary -- 2.7. Action Recognition Pathway -- 2.7.1. Attentional Structure of Reach-to-Grasp Action Observation -- 2.7.2. STS: Biological Motion Recognition, Joint Attention, and Target Anticipation -- 2.7.3. Mirror Neurons in F5 -- 2.7.4. Mirror Neurons in Inferior Parietal Cortex -- 2.7.5. Model of the Mirror Neuron Circuit -- 2.7.6. Activation of Goal Representations during Action Recognition -- 2.7.7. Comparison with Other Models of Mirror Neurons -- 2.7.8. Endpoint of Grasp Observation: Visual Perception of Contact -- 2.8. Distinctions between Executed and Observed Actions: Representation of Self versus Other -- 2.8.1. Brain Regions with Differential Activation during Observed and Executed Actions -- 2.8.2. Match Model of Agency -- 2.8.3. Mode-Setting Model of Agency -- 2.8.4. Attention-to-self: Action Execution Revisited -- 2.9. Summary: The Pathways Involved in Perception and Execution of Reach-to-Grasp Actions -- 2.10. Order of Sensorimotor Events during the Execution and Perception of Reach Actions -- 2.10.1. Theoretical Framework: Deictic Routines -- 2.10.2. Sequence of Processes during Execution of a Reach Action -- 2.10.3. Sequence of Processes during Perception of a Reach Action -- 2.11. Summary -- 3. Models of Learning and Memory for Sensorimotor Sequences -- 3.1. Baddeley's Model of Working Memory -- 3.1.1. Visuospatial Sketchpad -- 3.1.2. Phonological Loop -- 3.1.3. Episodic Buffer -- 3.2. Working Memory Representations of Action Sequences in PFC -- 3.2.1. Competitive Queuing -- 3.2.2. Associative Chaining -- 3.2.3. PFC Sequencing Models and the Reach-to-Grasp Action -- 3.2.4. Reinforcement Regimes for Learning PFC Sequence Plans -- 3.2.5. Summary -- 3.3. Competition between PFC Plan Assemblies -- 3.3.1. Evidence for Multiple Alternative Plans in Dorsolateral PFC -- 3.3.2. Possible Role for Posterior PFC and the SMA in Plan Selection -- 3.3.3. Plan Termination and the Pre-SMA -- 3.4. PFC Plan Activation during Action Recognition -- 3.4.1. Attend-to-Other Operation -- 3.4.2. Abductive Inference of PFC States -- 3.4.3. Training the Abductive Network -- 3.4.4. Time-Course of Plan Activation during Action Recognition -- 3.5. Replaying PFC Plans: Simulation Mode -- 3.5.1. Working Memory Episodes -- 3.6. Episodic Memory and the Hippocampal System -- 3.6.1. Hippocampus as an Autoassociative Network -- 3.6.2. Episodic Memory and Context Representations -- 3.6.3. Hippocampus as a Convergence Zone -- 3.6.4. Representation of Individuals in Long-Term Memory -- 3.7. Hippocampal Episode Representations as Sequences -- 3.7.1. Storage of Fine-Grained Temporal Sequences in the Hippocampus -- 3.7.2. Cortical Associations of Hippocampal Sequences -- 3.7.3. Model of Sequence Encoding in the Hippocampus -- 3.7.4. Example: Storing Two Successive Episodes in the Hippocampal System -- 3.8. Cortical Mechanisms for Encoding and Retrieval of Episodic Memories -- 3.8.1. Cortical Operations Involved in Encoding Episodic Memories -- 3.8.2. Cortical Processes Involved in Access of Episodic Memories -- 3.9. Summary: Cognitive Processes Occurring during the Replay of a Grasp Episode -- 3.10. Assessment of the Sensorimotor Model -- 4. Syntactic Framework: Minimalism -- 4.1. What Is a Syntactic Analysis? -- 4.2. Phonetic Form and Logical Form -- 4.3. X-Bar Theory -- 4.4. Structure of a Transitive Clause at LF: Overview -- 4.5. IP Projection -- 4.6. DP-Movement and Case Assignment -- 4.7. VP-Internal Subject Hypothesis -- 4.8. AgrP Projection -- 4.8.1. Motivating AgrP: An Argument from SOV Word Order -- 4.8.2. Pollock's Argument for AgrP -- 4.9. Summary: Strengths and Weaknesses of the Minimalist Model -- 5. Relationship between Syntax and Sensorimotor Structure -- 5.1. Summary of the Sensorimotor Model -- 5.2. Sensorimotor Interpretation of the LF of The man grabbed a cup: Overview -- 5.3. Sensorimotor Characterization of the X-Bar Schema -- 5.4. Sensorimotor Interpretation of the LF of The man grabbed a cup -- 5.4.1. I and Agr as Attentional Actions -- 5.4.2. Sensorimotor Account of DP Movement and Case -- 5.4.3. Sensorimotor Interpretation of Head Movement -- 5.5. Role of LF Revisited -- 5.5.1. Sensorimotor Interpretation of the Generative Process -- 5.5.2. LF as a Representation of Sentence Meaning -- 5.6. Predictions of the Sensorimotor Account of LF: Looking at Some Other Syntactic Constructions -- 5.6.1. Control Constructions -- 5.6.2. Finite Clausal Complements -- 5.6.3. Questions and V-to-C Raising -- 5.7. Summary -- 6. Linguistic Representations in the Brain: Current Models of Localization and Development -- 6.1. Neural Substrates of Language -- 6.1.1. Neural Locus of Phonological Representations -- 6.1.2. Neural Representations of the Semantics of Concrete Nouns and Verbs -- 6.1.3. Neural Representation of Words -- 6.1.4. Neural Locus of Syntactic Processing -- 6.2. Basic Stages of Language Development -- 6.2.1. Preliminaries for Word Learning: Phonological Word Representations and Sensorimotor Concepts -- 6.2.2. Learning the Meanings of Individual Words -- 6.2.3. Infants' Earliest Single-Word Utterances -- 6.2.4. Learning Syntax: Early Developmental Stages -- 6.2.5. Learning Syntax: Nativist and Empiricist Models -- 7. New Computational Model of Language Development and Language Processing -- 7.1. Learning Single-Word Meanings and the Concept of a Communicative Action -- 7.1.1. Network for Cross-Situational Word Meaning Learning -- 7.1.2. Modeling the Development of the Concept of a Communicative Action and Its Role in Word Learning -- 7.1.3. Representation of Communicative Actions and Intentions -- 7.2. Learning to Generate Syntactically Structured Utterances -- 7.2.1. Word Production Network: Producing Single-Word Utterances -- 7.2.2. Control Network: Generating Word. Sequences from Sensorimotor Sequences -- 7.2.3. Word Sequencing Network for Learning Surface Patterns in Language -- 7.2.4. Network Combining Sensorimotor and Surface-Based Word-Sequencing Mechanisms -- 7.2.5. Some Preliminary Ideas about Sentence Comprehension -- 7.2.6. Model's Relationship to Psycholinguistic Models of Sentence Production -- 7.3. Summary and Some Interim Conclusions -- 8. Summary, Comparisons, and Conclusions -- 8.1. Summary of the Proposals in This Book -- 8.2. Comparison with Other Embodied Models of Language and Cognition -- 8.3. Nativist-Empiricist Debate about Language. English. Grammar, Comparative and general Syntax. http://id.loc.gov/authorities/subjects/sh85056338 Cognitive grammar. http://id.loc.gov/authorities/subjects/sh86004349 Sensorimotor integration. http://id.loc.gov/authorities/subjects/sh85120056 Minimalist theory (Linguistics) http://id.loc.gov/authorities/subjects/sh95003803 Psycholinguistics. http://id.loc.gov/authorities/subjects/sh85108432 Syntaxe. Grammaire cognitive. Intégration sensorimotrice. Minimalisme (Linguistique) Psycholinguistique. psycholinguistics. aat LANGUAGE ARTS & DISCIPLINES Linguistics Psycholinguistics. bisacsh Cognitive grammar fast Grammar, Comparative and general Syntax fast Minimalist theory (Linguistics) fast Psycholinguistics fast Sensorimotor integration fast LINGUISTICS & LANGUAGE/General COGNITIVE SCIENCES/General NEUROSCIENCE/General Electronic book. Print version: Knott, Alistair, 1967- Sensorimotor cognition and natural language syntax. Cambridge, Mass. : MIT Press, ©2012 9780262017763 (DLC) 2012002926 (OCoLC)779470253 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=497019 Volltext
spellingShingle	Knott, Alistair, 1967- Sensorimotor cognition and natural language syntax / Introduction -- Shared Mechanisms Hypothesis -- General Motivations for the Shared Mechanisms Hypothesis -- Specific Model of Shared Mechanisms: Reference to Existing Syntactic and Sensorimotor Models -- Overview of the Argument of the Book -- Some Objections -- Abstract Sentences -- Levels of Representation -- Unfalsifiability -- Differences between Languages -- Syntactic Structure Does Not Determine Semantics -- Structure of the Book -- How to Read the Book -- Sensorimotor Processing during the Execution and Perception of Reach-to-Grasp Actions: A Review -- Early Visual System: Lateral Geniculate Nuclei, V1, V2, V3, and V4 -- Object Classification Pathway: Inferotemporal Cortex -- Object Categorization in Humans -- Top-Down Influences on Object Categorization -- Posterior Parietal Cortex: Vision for Attention and Action -- Vision for Attentional Selection: LIP and the Frontal Eye Fields -- LIP and FEF Cells Encode Salient Visual Stimuli and Associated Eye Movements -- LIP/FEF Cells Also Encode Top-Down Attentional Influences -- Spatial Attention and Object Classification -- Coordinate Systems of LIP and FEF Cells -- Visual Search by Inhibition of Return -- Vision for Action: The Reach-to-Grasp Motor Circuits -- Primary Motor Cortex (F1) -- Reach Pathway -- Grasp Pathway -- Endpoint of the Reach-to-Grasp Action: The Haptic Interface -- Planning Higher-Level Actions: Prefrontal Cortex and Higher Motor Areas -- Representation of Action Categories in the Motor System -- Top-Down Action Biasing in PFC: Miller and Cohen's Model -- Summary -- Action Recognition Pathway -- Attentional Structure of Reach-to-Grasp Action Observation -- STS: Biological Motion Recognition, Joint Attention, and Target Anticipation -- Mirror Neurons in F5 -- Mirror Neurons in Inferior Parietal Cortex -- Model of the Mirror Neuron Circuit -- Activation of Goal Representations during Action Recognition -- Comparison with Other Models of Mirror Neurons -- Endpoint of Grasp Observation: Visual Perception of Contact -- Distinctions between Executed and Observed Actions: Representation of Self versus Other -- Brain Regions with Differential Activation during Observed and Executed Actions -- Match Model of Agency -- Mode-Setting Model of Agency -- Attention-to-self: Action Execution Revisited -- Summary: The Pathways Involved in Perception and Execution of Reach-to-Grasp Actions -- Order of Sensorimotor Events during the Execution and Perception of Reach Actions -- Theoretical Framework: Deictic Routines -- Sequence of Processes during Execution of a Reach Action -- Sequence of Processes during Perception of a Reach Action -- Models of Learning and Memory for Sensorimotor Sequences -- Baddeley's Model of Working Memory -- Visuospatial Sketchpad -- Phonological Loop -- Episodic Buffer -- Working Memory Representations of Action Sequences in PFC -- Competitive Queuing -- Associative Chaining -- PFC Sequencing Models and the Reach-to-Grasp Action -- Reinforcement Regimes for Learning PFC Sequence Plans -- Competition between PFC Plan Assemblies -- Evidence for Multiple Alternative Plans in Dorsolateral PFC -- Possible Role for Posterior PFC and the SMA in Plan Selection -- Plan Termination and the Pre-SMA -- PFC Plan Activation during Action Recognition -- Attend-to-Other Operation -- Abductive Inference of PFC States -- Training the Abductive Network -- Time-Course of Plan Activation during Action Recognition -- Replaying PFC Plans: Simulation Mode -- Working Memory Episodes -- Episodic Memory and the Hippocampal System -- Hippocampus as an Autoassociative Network -- Episodic Memory and Context Representations -- Hippocampus as a Convergence Zone -- Representation of Individuals in Long-Term Memory -- Hippocampal Episode Representations as Sequences -- Storage of Fine-Grained Temporal Sequences in the Hippocampus -- Cortical Associations of Hippocampal Sequences -- Model of Sequence Encoding in the Hippocampus -- Example: Storing Two Successive Episodes in the Hippocampal System -- Cortical Mechanisms for Encoding and Retrieval of Episodic Memories -- Cortical Operations Involved in Encoding Episodic Memories -- Cortical Processes Involved in Access of Episodic Memories -- Summary: Cognitive Processes Occurring during the Replay of a Grasp Episode -- Assessment of the Sensorimotor Model -- Syntactic Framework: Minimalism -- What Is a Syntactic Analysis? -- Phonetic Form and Logical Form -- X-Bar Theory -- Structure of a Transitive Clause at LF: Overview -- IP Projection -- DP-Movement and Case Assignment -- VP-Internal Subject Hypothesis -- AgrP Projection -- Motivating AgrP: An Argument from SOV Word Order -- Pollock's Argument for AgrP -- Summary: Strengths and Weaknesses of the Minimalist Model -- Relationship between Syntax and Sensorimotor Structure -- Summary of the Sensorimotor Model -- Sensorimotor Interpretation of the LF of The man grabbed a cup: Overview -- Sensorimotor Characterization of the X-Bar Schema -- Sensorimotor Interpretation of the LF of The man grabbed a cup -- I and Agr as Attentional Actions -- Sensorimotor Account of DP Movement and Case -- Sensorimotor Interpretation of Head Movement -- Role of LF Revisited -- Sensorimotor Interpretation of the Generative Process -- LF as a Representation of Sentence Meaning -- Predictions of the Sensorimotor Account of LF: Looking at Some Other Syntactic Constructions -- Control Constructions -- Finite Clausal Complements -- Questions and V-to-C Raising -- Linguistic Representations in the Brain: Current Models of Localization and Development -- Neural Substrates of Language -- Neural Locus of Phonological Representations -- Neural Representations of the Semantics of Concrete Nouns and Verbs -- Neural Representation of Words -- Neural Locus of Syntactic Processing -- Basic Stages of Language Development -- Preliminaries for Word Learning: Phonological Word Representations and Sensorimotor Concepts -- Learning the Meanings of Individual Words -- Infants' Earliest Single-Word Utterances -- Learning Syntax: Early Developmental Stages -- Learning Syntax: Nativist and Empiricist Models -- New Computational Model of Language Development and Language Processing -- Learning Single-Word Meanings and the Concept of a Communicative Action -- Network for Cross-Situational Word Meaning Learning -- Modeling the Development of the Concept of a Communicative Action and Its Role in Word Learning -- Representation of Communicative Actions and Intentions -- Learning to Generate Syntactically Structured Utterances -- Word Production Network: Producing Single-Word Utterances -- Control Network: Generating Word. Sequences from Sensorimotor Sequences -- Word Sequencing Network for Learning Surface Patterns in Language -- Network Combining Sensorimotor and Surface-Based Word-Sequencing Mechanisms -- Some Preliminary Ideas about Sentence Comprehension -- Model's Relationship to Psycholinguistic Models of Sentence Production -- Summary and Some Interim Conclusions -- Summary, Comparisons, and Conclusions -- Summary of the Proposals in This Book -- Comparison with Other Embodied Models of Language and Cognition -- Nativist-Empiricist Debate about Language. Grammar, Comparative and general Syntax. http://id.loc.gov/authorities/subjects/sh85056338 Cognitive grammar. http://id.loc.gov/authorities/subjects/sh86004349 Sensorimotor integration. http://id.loc.gov/authorities/subjects/sh85120056 Minimalist theory (Linguistics) http://id.loc.gov/authorities/subjects/sh95003803 Psycholinguistics. http://id.loc.gov/authorities/subjects/sh85108432 Syntaxe. Grammaire cognitive. Intégration sensorimotrice. Minimalisme (Linguistique) Psycholinguistique. psycholinguistics. aat LANGUAGE ARTS & DISCIPLINES Linguistics Psycholinguistics. bisacsh Cognitive grammar fast Grammar, Comparative and general Syntax fast Minimalist theory (Linguistics) fast Psycholinguistics fast Sensorimotor integration fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85056338 http://id.loc.gov/authorities/subjects/sh86004349 http://id.loc.gov/authorities/subjects/sh85120056 http://id.loc.gov/authorities/subjects/sh95003803 http://id.loc.gov/authorities/subjects/sh85108432
title	Sensorimotor cognition and natural language syntax /
title_alt	Introduction -- Shared Mechanisms Hypothesis -- General Motivations for the Shared Mechanisms Hypothesis -- Specific Model of Shared Mechanisms: Reference to Existing Syntactic and Sensorimotor Models -- Overview of the Argument of the Book -- Some Objections -- Abstract Sentences -- Levels of Representation -- Unfalsifiability -- Differences between Languages -- Syntactic Structure Does Not Determine Semantics -- Structure of the Book -- How to Read the Book -- Sensorimotor Processing during the Execution and Perception of Reach-to-Grasp Actions: A Review -- Early Visual System: Lateral Geniculate Nuclei, V1, V2, V3, and V4 -- Object Classification Pathway: Inferotemporal Cortex -- Object Categorization in Humans -- Top-Down Influences on Object Categorization -- Posterior Parietal Cortex: Vision for Attention and Action -- Vision for Attentional Selection: LIP and the Frontal Eye Fields -- LIP and FEF Cells Encode Salient Visual Stimuli and Associated Eye Movements -- LIP/FEF Cells Also Encode Top-Down Attentional Influences -- Spatial Attention and Object Classification -- Coordinate Systems of LIP and FEF Cells -- Visual Search by Inhibition of Return -- Vision for Action: The Reach-to-Grasp Motor Circuits -- Primary Motor Cortex (F1) -- Reach Pathway -- Grasp Pathway -- Endpoint of the Reach-to-Grasp Action: The Haptic Interface -- Planning Higher-Level Actions: Prefrontal Cortex and Higher Motor Areas -- Representation of Action Categories in the Motor System -- Top-Down Action Biasing in PFC: Miller and Cohen's Model -- Summary -- Action Recognition Pathway -- Attentional Structure of Reach-to-Grasp Action Observation -- STS: Biological Motion Recognition, Joint Attention, and Target Anticipation -- Mirror Neurons in F5 -- Mirror Neurons in Inferior Parietal Cortex -- Model of the Mirror Neuron Circuit -- Activation of Goal Representations during Action Recognition -- Comparison with Other Models of Mirror Neurons -- Endpoint of Grasp Observation: Visual Perception of Contact -- Distinctions between Executed and Observed Actions: Representation of Self versus Other -- Brain Regions with Differential Activation during Observed and Executed Actions -- Match Model of Agency -- Mode-Setting Model of Agency -- Attention-to-self: Action Execution Revisited -- Summary: The Pathways Involved in Perception and Execution of Reach-to-Grasp Actions -- Order of Sensorimotor Events during the Execution and Perception of Reach Actions -- Theoretical Framework: Deictic Routines -- Sequence of Processes during Execution of a Reach Action -- Sequence of Processes during Perception of a Reach Action -- Models of Learning and Memory for Sensorimotor Sequences -- Baddeley's Model of Working Memory -- Visuospatial Sketchpad -- Phonological Loop -- Episodic Buffer -- Working Memory Representations of Action Sequences in PFC -- Competitive Queuing -- Associative Chaining -- PFC Sequencing Models and the Reach-to-Grasp Action -- Reinforcement Regimes for Learning PFC Sequence Plans -- Competition between PFC Plan Assemblies -- Evidence for Multiple Alternative Plans in Dorsolateral PFC -- Possible Role for Posterior PFC and the SMA in Plan Selection -- Plan Termination and the Pre-SMA -- PFC Plan Activation during Action Recognition -- Attend-to-Other Operation -- Abductive Inference of PFC States -- Training the Abductive Network -- Time-Course of Plan Activation during Action Recognition -- Replaying PFC Plans: Simulation Mode -- Working Memory Episodes -- Episodic Memory and the Hippocampal System -- Hippocampus as an Autoassociative Network -- Episodic Memory and Context Representations -- Hippocampus as a Convergence Zone -- Representation of Individuals in Long-Term Memory -- Hippocampal Episode Representations as Sequences -- Storage of Fine-Grained Temporal Sequences in the Hippocampus -- Cortical Associations of Hippocampal Sequences -- Model of Sequence Encoding in the Hippocampus -- Example: Storing Two Successive Episodes in the Hippocampal System -- Cortical Mechanisms for Encoding and Retrieval of Episodic Memories -- Cortical Operations Involved in Encoding Episodic Memories -- Cortical Processes Involved in Access of Episodic Memories -- Summary: Cognitive Processes Occurring during the Replay of a Grasp Episode -- Assessment of the Sensorimotor Model -- Syntactic Framework: Minimalism -- What Is a Syntactic Analysis? -- Phonetic Form and Logical Form -- X-Bar Theory -- Structure of a Transitive Clause at LF: Overview -- IP Projection -- DP-Movement and Case Assignment -- VP-Internal Subject Hypothesis -- AgrP Projection -- Motivating AgrP: An Argument from SOV Word Order -- Pollock's Argument for AgrP -- Summary: Strengths and Weaknesses of the Minimalist Model -- Relationship between Syntax and Sensorimotor Structure -- Summary of the Sensorimotor Model -- Sensorimotor Interpretation of the LF of The man grabbed a cup: Overview -- Sensorimotor Characterization of the X-Bar Schema -- Sensorimotor Interpretation of the LF of The man grabbed a cup -- I and Agr as Attentional Actions -- Sensorimotor Account of DP Movement and Case -- Sensorimotor Interpretation of Head Movement -- Role of LF Revisited -- Sensorimotor Interpretation of the Generative Process -- LF as a Representation of Sentence Meaning -- Predictions of the Sensorimotor Account of LF: Looking at Some Other Syntactic Constructions -- Control Constructions -- Finite Clausal Complements -- Questions and V-to-C Raising -- Linguistic Representations in the Brain: Current Models of Localization and Development -- Neural Substrates of Language -- Neural Locus of Phonological Representations -- Neural Representations of the Semantics of Concrete Nouns and Verbs -- Neural Representation of Words -- Neural Locus of Syntactic Processing -- Basic Stages of Language Development -- Preliminaries for Word Learning: Phonological Word Representations and Sensorimotor Concepts -- Learning the Meanings of Individual Words -- Infants' Earliest Single-Word Utterances -- Learning Syntax: Early Developmental Stages -- Learning Syntax: Nativist and Empiricist Models -- New Computational Model of Language Development and Language Processing -- Learning Single-Word Meanings and the Concept of a Communicative Action -- Network for Cross-Situational Word Meaning Learning -- Modeling the Development of the Concept of a Communicative Action and Its Role in Word Learning -- Representation of Communicative Actions and Intentions -- Learning to Generate Syntactically Structured Utterances -- Word Production Network: Producing Single-Word Utterances -- Control Network: Generating Word. Sequences from Sensorimotor Sequences -- Word Sequencing Network for Learning Surface Patterns in Language -- Network Combining Sensorimotor and Surface-Based Word-Sequencing Mechanisms -- Some Preliminary Ideas about Sentence Comprehension -- Model's Relationship to Psycholinguistic Models of Sentence Production -- Summary and Some Interim Conclusions -- Summary, Comparisons, and Conclusions -- Summary of the Proposals in This Book -- Comparison with Other Embodied Models of Language and Cognition -- Nativist-Empiricist Debate about Language.
title_auth	Sensorimotor cognition and natural language syntax /
title_exact_search	Sensorimotor cognition and natural language syntax /
title_full	Sensorimotor cognition and natural language syntax / Alistair Knott.
title_fullStr	Sensorimotor cognition and natural language syntax / Alistair Knott.
title_full_unstemmed	Sensorimotor cognition and natural language syntax / Alistair Knott.
title_short	Sensorimotor cognition and natural language syntax /
title_sort	sensorimotor cognition and natural language syntax
topic	Grammar, Comparative and general Syntax. http://id.loc.gov/authorities/subjects/sh85056338 Cognitive grammar. http://id.loc.gov/authorities/subjects/sh86004349 Sensorimotor integration. http://id.loc.gov/authorities/subjects/sh85120056 Minimalist theory (Linguistics) http://id.loc.gov/authorities/subjects/sh95003803 Psycholinguistics. http://id.loc.gov/authorities/subjects/sh85108432 Syntaxe. Grammaire cognitive. Intégration sensorimotrice. Minimalisme (Linguistique) Psycholinguistique. psycholinguistics. aat LANGUAGE ARTS & DISCIPLINES Linguistics Psycholinguistics. bisacsh Cognitive grammar fast Grammar, Comparative and general Syntax fast Minimalist theory (Linguistics) fast Psycholinguistics fast Sensorimotor integration fast
topic_facet	Grammar, Comparative and general Syntax. Cognitive grammar. Sensorimotor integration. Minimalist theory (Linguistics) Psycholinguistics. Syntaxe. Grammaire cognitive. Intégration sensorimotrice. Minimalisme (Linguistique) Psycholinguistique. psycholinguistics. LANGUAGE ARTS & DISCIPLINES Linguistics Psycholinguistics. Cognitive grammar Grammar, Comparative and general Syntax Psycholinguistics Sensorimotor integration Electronic book.
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=497019
work_keys_str_mv	AT knottalistair sensorimotorcognitionandnaturallanguagesyntax

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