Publications

Displaying 1 - 100 of 156
  • Bauer, B. L. M. (2000). From Latin to French: The linear development of word order. In B. Bichakjian, T. Chernigovskaya, A. Kendon, & A. Müller (Eds.), Becoming Loquens: More studies in language origins (pp. 239-257). Frankfurt am Main: Lang.
  • Bauer, B. L. M. (1997). Nominal syntax in Italic: A diachronic perspective. In Language change and functional explanations (pp. 273-301). Berlin: Mouton de Gruyter.
  • Bickel, B. (1991). Der Hang zur Exzentrik - Annäherungen an das kognitive Modell der Relativkonstruktion. In W. Bisang, & P. Rinderknecht (Eds.), Von Europa bis Ozeanien - von der Antinomie zum Relativsatz (pp. 15-37). Zurich, Switzerland: Seminar für Allgemeine Sprachwissenschaft der Universität.
  • Blythe, J. (2018). Genesis of the trinity: The convergent evolution of trirelational kinterms. In P. McConvell, & P. Kelly (Eds.), Skin, kin and clan: The dynamics of social categories in Indigenous Australia (pp. 431-471). Canberra: ANU EPress.
  • Bohnemeyer, J. (2000). Where do pragmatic meanings come from? In W. Spooren, T. Sanders, & C. van Wijk (Eds.), Samenhang in Diversiteit; Opstellen voor Leo Noorman, aangeboden bij gelegenheid van zijn zestigste verjaardag (pp. 137-153).
  • Böttner, M. (1997). Natural Language. In C. Brink, W. Kahl, & G. Schmidt (Eds.), Relational Methods in computer science (pp. 229-249). Vienna, Austria: Springer-Verlag.
  • Bowden, J. (1997). The meanings of Directionals in Taba. In G. Senft (Ed.), Referring to Space: Studies in Austronesian and Papuan Languages (pp. 251-268). New York, NJ: Oxford University Press.
  • Bowerman, M. (1975). Cross linguistic similarities at two stages of syntactic development. In E. Lenneberg, & E. Lenneberg (Eds.), Foundations of language development: A multidisciplinary approach (pp. 267-282). New York: Academic Press.
  • Bowerman, M. (1986). First steps in acquiring conditionals. In E. C. Traugott, A. G. t. Meulen, J. S. Reilly, & C. A. Ferguson (Eds.), On conditionals (pp. 285-308). Cambridge University Press.

    Abstract

    This chapter is about the initial flowering of conditionals, if-(then) constructions, in children's spontaneous speech. It is motivated by two major theoretical interests. The first and most immediate is to understand the acquisition process itself. Conditionals are conceptually, and in many languages morphosyntactically, complex. What aspects of cognitive and grammatical development are implicated in their acquisition? Does learning take place in the context of particular interactions with other speakers? Where do conditionals fit in with the acquisition of other complex sentences? What are the semantic, syntactic and pragmatic properties of the first conditionals? Underlying this first interest is a second, more strictly linguistic one. Research of recent years has found increasing evidence that natural languages are constrained in certain ways. The source of these constraints is not yet clearly understood, but it is widely assumed that some of them derive ultimately from properties of children's capacity for language acquisition.

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  • Bowerman, M. (1989). Learning a semantic system: What role do cognitive predispositions play? In M. L. Rice, & R. L. Schiefelbusch (Eds.), The teachability of language (pp. 133-169). Baltimore: Paul H. Brookes.
  • Bowerman, M. (2000). Where do children's word meanings come from? Rethinking the role of cognition in early semantic development. In L. Nucci, G. Saxe, & E. Turiel (Eds.), Culture, thought and development (pp. 199-230). Mahwah, NJ: Lawrence Erlbaum.
  • Brehm, L., & Goldrick, M. (2018). Connectionist principles in theories of speech production. In S.-A. Rueschemeyer, & M. G. Gaskell (Eds.), The Oxford Handbook of Psycholinguistics (2nd ed., pp. 372-397). Oxford: Oxford University Press.

    Abstract

    This chapter focuses on connectionist modeling in language production, highlighting how
    core principles of connectionism provide coverage for empirical observations about
    representation and selection at the phonological, lexical, and sentence levels. The first
    section focuses on the connectionist principles of localist representations and spreading
    activation. It discusses how these two principles have motivated classic models of speech
    production and shows how they cover results of the picture-word interference paradigm,
    the mixed error effect, and aphasic naming errors. The second section focuses on how
    newer connectionist models incorporate the principles of learning and distributed
    representations through discussion of syntactic priming, cumulative semantic
    interference, sequencing errors, phonological blends, and code-switching
  • Brown, C. M., & Hagoort, P. (1989). De LAT-relatie tussen lichaam en geest: Over de implicaties van neurowetenschap voor onze kennis van cognitie. In C. Brown, P. Hagoort, & T. Meijering (Eds.), Vensters op de geest: Cognitie op het snijvlak van filosofie en psychologie (pp. 50-81). Utrecht: Grafiet.
  • Brown, P. (2000). ’He descended legs-upwards‘: Position and motion in Tzeltal frog stories. In E. V. Clark (Ed.), Proceedings of the 30th Stanford Child Language Research Forum (pp. 67-75). Stanford: CSLI.

    Abstract

    How are events framed in narrative? Speakers of English (a 'satellite-framed' language), when 'reading' Mercer Mayer's wordless picture book 'Frog, Where Are You?', find the story self-evident: a boy has a dog and a pet frog; the frog escapes and runs away; the boy and dog look for it across hill and dale, through woods and over a cliff, until they find it and return home with a baby frog child of the original pet frog. In Tzeltal, as spoken in a Mayan community in southern Mexico, the story is somewhat different, because the language structures event descriptions differently. Tzeltal is in part a 'verb-framed' language with a set of Path-encoding motion verbs, so that the bare bones of the Frog story can consist of verbs translating as 'go'/'pass by'/'ascend'/ 'descend'/ 'arrive'/'return'. But Tzeltal also has satellite-framing adverbials, grammaticized from the same set of motion verbs, which encode the direction of motion or the orientation of static arrays. Furthermore, vivid pictorial detail is provided by positional verbs which can describe the position of the Figure as an outcome of a motion event; motion and stasis are thereby combined in a single event description. (For example:  jipot jawal "he has been thrown (by the deer) lying­_face_upwards_spread-eagled". This paper compares the use of these three linguistic resources in Frog Story narratives from  Tzeltal adults and children, looks at their development in the narratives of children, and considers the results in relation to those from Berman and Slobin's (1996) comparative study of adult and child Frog stories.
  • Brown, P., & Levinson, S. C. (2000). Frames of spatial reference and their acquisition in Tenejapan Tzeltal. In L. Nucci, G. Saxe, & E. Turiel (Eds.), Culture, thought, and development (pp. 167-197). Mahwah, NJ: Erlbaum.
  • Brown, P. (1997). Isolating the CVC root in Tzeltal Mayan: A study of children's first verbs. In E. V. Clark (Ed.), Proceedings of the 28th Annual Child Language Research Forum (pp. 41-52). Stanford, CA: CSLI/University of Chicago Press.

    Abstract

    How do children isolate the semantic package contained in verb roots in the Mayan language Tzeltal? One might imagine that the canonical CVC shape of roots characteristic of Mayan languages would make the job simple, but the root is normally preceded and followed by affixes which mask its identity. Pye (1983) demonstrated that, in Kiche' Mayan, prosodic salience overrides semantic salience, and children's first words in Kiche' are often composed of only the final (stressed) syllable constituted by the final consonant of the CVC root and a 'meaningless' termination suffix. Intonation thus plays a crucial role in early Kiche' morphological development. Tzeltal presents a rather different picture: The first words of children around the age of 1;6 are bare roots, children strip off all prefixes and suffixes which are obligatory in adult speech. They gradually add them, starting with the suffixes (which receive the main stress), but person prefixes are omitted in some contexts past a child's third birthday, and one obligatory aspectual prefix (x-) is systematically omitted by the four children in my longitudinal study even after they are four years old. Tzeltal children's first verbs generally show faultless isolation of the root. An account in terms of intonation or stress cannot explain this ability (the prefixes are not all syllables; the roots are not always stressed). This paper suggests that probable clues include the fact that the CVC root stays constant across contexts (with some exceptions) whereas the affixes vary, that there are some linguistic contexts where the root occurs without any prefixes (relatively frequent in the input), and that the Tzeltal discourse convention of responding by repeating with appropriate deictic alternation (e.g., "I see it." "Oh, you see it.") highlights the root.
  • Brown, C. M., & Hagoort, P. (2000). On the electrophysiology of language comprehension: Implications for the human language system. In M. W. Crocker, M. Pickering, & C. Clifton jr. (Eds.), Architectures and mechanisms for language processing (pp. 213-237). Cambridge University Press.
  • Brown, P. (1991). Sind Frauen höflicher? Befunde aus einer Maya-Gemeinde. In S. Günther, & H. Kotthoff (Eds.), Von fremden Stimmen: Weibliches und männliches Sprechen im Kulturvergleich. Frankfurt am Main: Suhrkamp.

    Abstract

    This is a German translation of Brown 1980, How and why are women more polite: Some evidence from a Mayan community.
  • Brown, C. M., Hagoort, P., & Kutas, M. (2000). Postlexical integration processes during language comprehension: Evidence from brain-imaging research. In M. S. Gazzaniga (Ed.), The new cognitive neurosciences (2nd., pp. 881-895). Cambridge, MA: MIT Press.
  • Brown, P., & Levinson, S. C. (2018). Tzeltal: The demonstrative system. In S. C. Levinson, S. Cutfield, M. Dunn, N. J. Enfield, & S. Meira (Eds.), Demonstratives in cross-linguistic perspective (pp. 150-177). Cambridge: Cambridge University Press.
  • Chen, H.-C., & Cutler, A. (1997). Auditory priming in spoken and printed word recognition. In H.-C. Chen (Ed.), Cognitive processing of Chinese and related Asian languages (pp. 77-81). Hong Kong: Chinese University Press.
  • Clark, E. V., & Bowerman, M. (1986). On the acquisition of final voiced stops. In J. A. Fishman (Ed.), The Fergusonian impact: in honor of Charles A. Ferguson on the occasion of his 65th birthday. Volume 1: From phonology to society (pp. 51-68). Berlin: Mouton de Gruyter.
  • Crago, M. B., Allen, S. E. M., & Hough-Eyamie, W. P. (1997). Exploring innateness through cultural and linguistic variation. In M. Gopnik (Ed.), The inheritance and innateness of grammars (pp. 70-90). New York City, NY, USA: Oxford University Press, Inc.
  • Cutler, A. (1989). Auditory lexical access: Where do we start? In W. Marslen-Wilson (Ed.), Lexical representation and process (pp. 342-356). Cambridge, MA: MIT Press.

    Abstract

    The lexicon, considered as a component of the process of recognizing speech, is a device that accepts a sound image as input and outputs meaning. Lexical access is the process of formulating an appropriate input and mapping it onto an entry in the lexicon's store of sound images matched with their meanings. This chapter addresses the problems of auditory lexical access from continuous speech. The central argument to be proposed is that utterance prosody plays a crucial role in the access process. Continuous listening faces problems that are not present in visual recognition (reading) or in noncontinuous recognition (understanding isolated words). Aspects of utterance prosody offer a solution to these particular problems.
  • Cutler, A. (2000). How the ear comes to hear. In New Trends in Modern Linguistics [Part of Annual catalogue series] (pp. 6-10). Tokyo, Japan: Maruzen Publishers.
  • Cutler, A. (2000). Hoe het woord het oor verovert. In Voordrachten uitgesproken tijdens de uitreiking van de SPINOZA-premies op 15 februari 2000 (pp. 29-41). The Hague, The Netherlands: Nederlandse Organisatie voor Wetenschappelijk Onderzoek (NWO).
  • Cutler, A. (1991). Linguistic rhythm and speech segmentation. In J. Sundberg, L. Nord, & R. Carlson (Eds.), Music, language, speech and brain (pp. 157-166). London: Macmillan.
  • Cutler, A., & Farrell, J. (2018). Listening in first and second language. In J. I. Liontas (Ed.), The TESOL encyclopedia of language teaching. New York: Wiley. doi:10.1002/9781118784235.eelt0583.

    Abstract

    Listeners' recognition of spoken language involves complex decoding processes: The continuous speech stream must be segmented into its component words, and words must be recognized despite great variability in their pronunciation (due to talker differences, or to influence of phonetic context, or to speech register) and despite competition from many spuriously present forms supported by the speech signal. L1 listeners deal more readily with all levels of this complexity than L2 listeners. Fortunately, the decoding processes necessary for competent L2 listening can be taught in the classroom. Evidence-based methodologies targeted at the development of efficient speech decoding include teaching of minimal pairs, of phonotactic constraints, and of reduction processes, as well as the use of dictation and L2 video captions.
  • Cutler, A. (1997). Prosody and the structure of the message. In Y. Sagisaka, N. Campbell, & N. Higuchi (Eds.), Computing prosody: Computational models for processing spontaneous speech (pp. 63-66). Heidelberg: Springer.
  • Cutler, A. (2000). Real words, phantom words and impossible words. In D. Burnham, S. Luksaneeyanawin, C. Davis, & M. Lafourcade (Eds.), Interdisciplinary approaches to language processing: The international conference on human and machine processing of language and speech (pp. 32-42). Bangkok: NECTEC.
  • Dijkstra, T., & Kempen, G. (1997). Het taalgebruikersmodel. In H. Hulshof, & T. Hendrix (Eds.), De taalcentrale. Amsterdam: Bulkboek.
  • Dingemanse, M., Blythe, J., & Dirksmeyer, T. (2018). Formats for other-initiation of repair across languages: An exercise in pragmatic typology. In I. Nikolaeva (Ed.), Linguistic Typology: Critical Concepts in Linguistics. Vol. 4 (pp. 322-357). London: Routledge.

    Abstract

    In conversation, people regularly deal with problems of speaking, hearing, and understanding. We report on a cross-linguistic investigation of the conversational structure of other-initiated repair (also known as collaborative repair, feedback, requests for clarification, or grounding sequences). We take stock of formats for initiating repair across languages (comparable to English huh?, who?, y’mean X?, etc.) and find that different languages make available a wide but remarkably similar range of linguistic resources for this function. We exploit the patterned variation as evidence for several underlying concerns addressed by repair initiation: characterising trouble, managing responsibility, and handling knowledge. The concerns do not always point in the same direction and thus provide participants in interaction with alternative principles for selecting one format over possible others. By comparing conversational structures across languages, this paper contributes to pragmatic typology: the typology of systems of language use and the principles that shape them.
  • Dittmar, N., & Klein, W. (1975). Untersuchungen zum Pidgin-Deutsch spanischer und italienischer Arbeiter in der Bundesrepublik: Ein Arbeitsbericht. In A. Wierlacher (Ed.), Jahrbuch Deutsch als Fremdsprache (pp. 170-194). Heidelberg: Groos.
  • Doherty, M., & Klein, W. (Eds.). (1991). Übersetzung [Special Issue]. Zeitschrift für Literaturwissenschaft und Linguistik, (84).
  • Eisenbeiss, S. (2000). The acquisition of Determiner Phrase in German child language. In M.-A. Friedemann, & L. Rizzi (Eds.), The Acquisition of Syntax (pp. 26-62). Harlow, UK: Pearson Education Ltd.
  • Eisner, F., & McQueen, J. M. (2018). Speech perception. In S. Thompson-Schill (Ed.), Stevens’ handbook of experimental psychology and cognitive neuroscience (4th ed.). Volume 3: Language & thought (pp. 1-46). Hoboken: Wiley. doi:10.1002/9781119170174.epcn301.

    Abstract

    This chapter reviews the computational processes that are responsible for recognizing word forms in the speech stream. We outline the different stages in a processing hierarchy from the extraction of general acoustic features, through speech‐specific prelexical processes, to the retrieval and selection of lexical representations. We argue that two recurring properties of the system as a whole are abstraction and adaptability. We also present evidence for parallel processing of information on different timescales, more specifically that segmental material in the speech stream (its consonants and vowels) is processed in parallel with suprasegmental material (the prosodic structures of spoken words). We consider evidence from both psycholinguistics and neurobiology wherever possible, and discuss how the two fields are beginning to address common computational problems. The challenge for future research in speech perception will be to build an account that links these computational problems, through functional mechanisms that address them, to neurobiological implementation.
  • Enfield, N. J. (2000). On linguocentrism. In M. Pütz, & M. H. Verspoor (Eds.), Explorations in linguistic relativity (pp. 125-157). Amsterdam: Benjamins.
  • Ernestus, M., & Smith, R. (2018). Qualitative and quantitative aspects of phonetic variation in Dutch eigenlijk. In F. Cangemi, M. Clayards, O. Niebuhr, B. Schuppler, & M. Zellers (Eds.), Rethinking reduction: Interdisciplinary perspectives on conditions, mechanisms, and domains for phonetic variation (pp. 129-163). Berlin/Boston: De Gruyter Mouton.
  • Flecken, M., & Von Stutterheim, C. (2018). Sprache und Kognition: Sprachvergleichende und lernersprachliche Untersuchungen zur Ereigniskonzeptualisierung. In S. Schimke, & H. Hopp (Eds.), Sprachverarbeitung im Zweitspracherwerb (pp. 325-356). Berlin: De Gruyter. doi:10.1515/9783110456356-014.
  • Floyd, S. (2018). Egophoricity and argument structure in Cha'palaa. In S. Floyd, E. Norcliffe, & L. San Roque (Eds.), Egophoricity (pp. 269-304). Amsterdam: Benjamins.

    Abstract

    The Cha’palaa language of Ecuador (Barbacoan) features verbal morphology for marking knowledge-based categories that, in usage, show a variant of the cross-linguistically recurrent pattern of ‘egophoric distribution': specific forms associate with speakers in contrast to others in statements and with addressees in contrast to others in questions. These are not person markers, but rather are used by speakers to portray their involvement in states of affairs as active, agentive participants (ego) versus other types of involvement (non-ego). They interact with person and argument structure, but through pragmatic ‘person sensitivities’ rather than through grammatical agreement. Not only does this pattern appear in verbal morphology, it also can be observed in alternations of predicate construction types and case alignment, helping to show how egophoric marking is a pervasive element of Cha'palaa's linguistic system. This chapter gives a first account of egophoricity in Cha’palaa, beginning with a discussion of person sensitivity, egophoric distribution, and issues of flexibility of marking with respect to degree of volition or control. It then focuses on a set of intransitive experiencer (or ‘endopathic') predicates that refer to internal states which mark egophoric values for the undergoer role, not the actor role, showing ‘quirky’ accusative marking instead of nominative case. It concludes with a summary of how egophoricity in Cha'palaa interacts with issues of argument structure in comparison to a language with person agreement, here represented by examples from Cha’palaa’s neighbor Ecuadorian Highland Quechua.
  • Forkel, S. J., & Catani, M. (2018). Structural Neuroimaging. In A. De Groot, & P. Hagoort (Eds.), Research Methods in Psycholinguistics and the Neurobiology of Language: A Practical Guide (pp. 288-308). Hoboken: Wiley. doi:10.1002/9781394259762.ch15.

    Abstract

    Structural imaging based on computerized tomography (CT) and magnetic resonance imaging (MRI) has progressively replaced traditional post‐mortem studies in the process of identifying the neuroanatomical basis of language. In the clinical setting, the information provided by structural imaging has been used to confirm the exact diagnosis and formulate an individualized treatment plan. In the research arena, neuroimaging has permitted to understand neuroanatomy at the individual and group level. The possibility to obtain quantitative measures of lesions has improved correlation analyses between severity of symptoms, lesion load, and lesion location. More recently, the development of structural imaging based on diffusion MRI has provided valid solutions to two major limitations of more conventional imaging. In stroke patients, diffusion can visualize early changes due to a stroke that are otherwise not detectable with more conventional structural imaging, with important implications for the clinical management of acute stroke patients. Beyond the sensitivity to early changes, diffusion imaging tractography presents the possibility of visualizing the trajectories of individual white matter pathways connecting distant regions. A pathway analysis based on tractography is offering a new perspective in neurolinguistics. First, it permits to formulate new anatomical models of language function in the healthy brain and allows to directly test these models in the human population without any reliance on animal models. Second, by defining the exact location of the damage to specific white matter connections we can understand the contribution of different mechanisms to the emergence of language deficits (e.g., cortical versus disconnection mechanisms). Finally, a better understanding of the anatomical variability of different language networks is helping to identify new anatomical predictors of language recovery. In this chapter we will focus on the principles of structural MRI and, in particular, diffusion imaging and tractography and present examples of how these methods have informed our understanding of variance in language performances in the healthy brain and language deficits in patient populations.
  • Gingras, B., Honing, H., Peretz, I., Trainor, L. J., & Fisher, S. E. (2018). Defining the biological bases of individual differences in musicality. In H. Honing (Ed.), The origins of musicality (pp. 221-250). Cambridge, MA: MIT Press.
  • Hagoort, P., & Indefrey, P. (1997). De neurale architectuur van het menselijk taalvermogen. In H. Peters (Ed.), Handboek stem-, spraak-, en taalpathologie (pp. 1-36). Houten: Bohn Stafleu Van Loghum.
  • Hagoort, P., & Van Turennout, M. (1997). The electrophysiology of speaking: Possibilities of event-related potential research for speech production. In W. Hulstijn, H. Peters, & P. Van Lieshout (Eds.), Speech motor production and fluency disorders: Brain research in speech production (pp. 351-361). Amsterdam: Elsevier.
  • Hagoort, P., & Wassenaar, M. (1997). Taalstoornissen: Van theorie tot therapie. In B. Deelman, P. Eling, E. De Haan, A. Jennekens, & A. Van Zomeren (Eds.), Klinische Neuropsychologie (pp. 232-248). Meppel: Boom.
  • Hagoort, P. (1997). Zonder fosfor geen gedachten: Gagarin, geest en brein. In Brain & Mind (pp. 6-14). Utrecht: Reünistenvereniging Veritas.
  • Hammarström, H. (2018). Language isolates in the New Guinea region. In L. Campbell (Ed.), Language Isolates (pp. 287-322). London: Routledge.
  • Heeschen, V., Eibl-Eibesfeldt, I., Grammer, K., Schiefenhövel, W., & Senft, G. (1986). Sprachliches Verhalten. In Generalverwaltung der MPG (Ed.), Max-Planck-Gesellschaft Jahrbuch 1986 (pp. 394-396). Göttingen: Vandenhoeck and Ruprecht.
  • Hoey, E., & Kendrick, K. H. (2018). Conversation analysis. In A. M. B. De Groot, & P. Hagoort (Eds.), Research methods in psycholinguistics and the neurobiology of language: A practical guide (pp. 151-173). Hoboken: Wiley.

    Abstract

    Conversation Analysis (CA) is an inductive, micro-analytic, and predominantly qualitative
    method for studying human social interactions. This chapter describes and illustrates the basic
    methods of CA. We first situate the method by describing its sociological foundations, key areas
    of analysis, and particular approach in using naturally occurring data. The bulk of the chapter is
    devoted to practical explanations of the typical conversation analytic process for collecting data
    and producing an analysis. We analyze a candidate interactional practice – the assessmentimplicative
    interrogative – using real data extracts as a demonstration of the method, explicitly
    laying out the relevant questions and considerations for every stage of an analysis. The chapter
    concludes with some discussion of quantitative approaches to conversational interaction, and
    links between CA and psycholinguistic concerns
  • Huettig, F., Kolinsky, R., & Lachmann, T. (Eds.). (2018). The effects of literacy on cognition and brain functioning [Special Issue]. Language, Cognition and Neuroscience, 33(3).
  • Indefrey, P. (1997). PET research in language production. In W. Hulstijn, H. F. M. Peters, & P. H. H. M. Van Lieshout (Eds.), Speech production: motor control, brain research and fluency disorders (pp. 269-278). Amsterdam: Elsevier.

    Abstract

    The aim of this paper is to discuss an inherent difficulty of PET (and fMRI) research in language production. On the one hand, language production presupposes some degree of freedom for the subject, on the other hand, interpretability of results presupposes restrictions of this freedom. This difficulty is reflected in the existing PET literature in some neglect of the general principle to design experiments in such a way that the results do not allow for alternative interpretations. It is argued that by narrowing down the scope of experiments a gain in interpretability can be achieved.
  • Indefrey, P. (2018). The relationship between syntactic production and comprehension. In S.-A. Rueschemeyer, & M. G. Gaskell (Eds.), The Oxford Handbook of Psycholinguistics (2nd ed., pp. 486-505). Oxford: Oxford University Press.

    Abstract

    This chapter deals with the question of whether there is one syntactic system that is shared by language production and comprehension or whether there are two separate systems. It first discusses arguments in favor of one or the other option and then presents the current evidence on the brain structures involved in sentence processing. The results of meta-analyses of numerous neuroimaging studies suggest that there is one system consisting of functionally distinct cortical regions: the dorsal part of Broca’s area subserving compositional syntactic processing; the ventral part of Broca’s area subserving compositional semantic processing; and the left posterior temporal cortex (Wernicke’s area) subserving the retrieval of lexical syntactic and semantic information. Sentence production, the comprehension of simple and complex sentences, and the parsing of sentences containing grammatical violations differ with respect to the recruitment of these functional components.
  • Indefrey, P., & Levelt, W. J. M. (2000). The neural correlates of language production. In M. S. Gazzaniga (Ed.), The new cognitive neurosciences; 2nd ed. (pp. 845-865). Cambridge, MA: MIT Press.

    Abstract

    This chapter reviews the findings of 58 word production experiments using different tasks and neuroimaging techniques. The reported cerebral activation sites are coded in a common anatomic reference system. Based on a functional model of language production, the different word production tasks are analyzed in terms of their processing components. This approach allows a distinction between the core process of word production and preceding task-specific processes (lead-in processes) such as visual or auditory stimulus recognition. The core process of word production is subserved by a left-lateralized perisylvian/thalamic language production network. Within this network there seems to be functional specialization for the processing stages of word production. In addition, this chapter includes a discussion of the available evidence on syntactic production, self-monitoring, and the time course of word production.
  • Ingvar, M., & Petersson, K. M. (2000). Functional maps and brain networks. In A. W. Toga (Ed.), Brain mapping: The systems (pp. 111-140). San Diego: Academic Press.
  • Janssen, R., & Dediu, D. (2018). Genetic biases affecting language: What do computer models and experimental approaches suggest? In T. Poibeau, & A. Villavicencio (Eds.), Language, Cognition and Computational Models (pp. 256-288). Cambridge: Cambridge University Press.

    Abstract

    Computer models of cultural evolution have shown language properties emerging on interacting agents with a brain that lacks dedicated, nativist language modules. Notably, models using Bayesian agents provide a precise specification of (extra-)liguististic factors (e.g., genetic) that shape language through iterated learning (biases on language), and demonstrate that weak biases get expressed more strongly over time (bias amplification). Other models attempt to lessen assumption on agents’ innate predispositions even more, and emphasize self-organization within agents, highlighting glossogenesis (the development of language from a nonlinguistic state). Ultimately however, one also has to recognize that biology and culture are strongly interacting, forming a coevolving system. As such, computer models show that agents might (biologically) evolve to a state predisposed to language adaptability, where (culturally) stable language features might get assimilated into the genome via Baldwinian niche construction. In summary, while many questions about language evolution remain unanswered, it is clear that it is not to be completely understood from a purely biological, cognitivist perspective. Language should be regarded as (partially) emerging on the social interactions between large populations of speakers. In this context, agent models provide a sound approach to investigate the complex dynamics of genetic biasing on language and speech
  • Janzen, G., Herrmann, T., Katz, S., & Schweizer, K. (2000). Oblique Angled Intersections and Barriers: Navigating through a Virtual Maze. In Spatial Cognition II (pp. 277-294). Berlin: Springer.

    Abstract

    The configuration of a spatial layout has a substantial effect on the acquisition and the representation of the environment. In four experiments, we investigated navigation difficulties arising at oblique angled intersections. In the first three studies we investigated specific arrow-fork configurations. In dependence on the branch subjects use to enter the intersection different decision latencies and numbers of errors arise. If subjects see the intersection as a fork, it is more difficult to find the correct way as if it is seen as an arrow. In a fourth study we investigated different heuristics people use while making a detour around a barrier. Detour behaviour varies with the perspective. If subjects learn and navigate through the maze in a field perspective they use a heuristic of preferring right angled paths. If they have a view from above and acquire their knowledge in an observer perspective they use oblique angled paths more often.

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  • Kempen, G. (1986). Beyond word processing. In E. Cluff, & G. Bunting (Eds.), Information management yearbook 1986 (pp. 178-181). London: IDPM Publications.
  • Kempen, G. (1989). Informatiegedragskunde: Pijler van de moderne informatieverzorging. In A. F. Marks (Ed.), Sociaal-wetenschappelijke informatie en kennisvorming in onderzoek, onderzoeksbeleid en beroep (pp. 31-35). Amsterdam: SWIDOC.
  • Kempen, G. (1986). Kunstmatige intelligentie en gezond verstand. In P. Hagoort, & R. Maessen (Eds.), Geest, computer, kunst (pp. 118-123). Utrecht: Stichting Grafiet.
  • Kempen, G. (1989). Language generation systems. In I. S. Bátori, W. Lenders, & W. Putschke (Eds.), Computational linguistics: An international handbook on computer oriented language research and applications (pp. 471-480). Berlin/New York: Walter de Gruyter.
  • Kempen, G. (1997). Taalpsychologie week. In Wetenschappelijke Scheurkalender 1998. Beek: Natuur & Techniek.

    Abstract

    [Seven one-page psycholinguistic sketches]
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