Publications

Displaying 1 - 24 of 24
  • Ameka, F. K., & Osam, E. K. (2002). New directions in Ghanaian linguistics: Essays in honour of the 3Ds: M.E. Kropp Dakubu, Florence Abena Dolphyne, Alan Stewart Duthie. Accra: Black Mask Ltd.
  • Bauer, B. L. M. (1995). The emergence and development of SVO patterning in Latin and French. Diachronic and psycholinguistic perspectives. Oxford: Oxford University Press.

    Abstract

    This book examines Latin word order, its historical origins in Proto-Indo-European and the shift in ordering patterns that took place in syntax and morphology in the history of Latin and (early) French (OV or left branching giving way to VO or right branching). Subsequently, analysis of the acquisition of ordering patterns shows that the archaic structuration—when complex—is acquired with difficulty. Diachronic and psycholinguistic analysis therefore demonstrates that the order of grammatical structures in Modern French, for example, is the result of a long-lasting development that psycholinguistic data can account for.
  • Bohnemeyer, J. (2002). The grammar of time reference in Yukatek Maya. Munich: LINCOM.
  • Bohnemeyer, J., Kelly, A., & Abdel Rahman, R. (2002). Max-Planck-Institute for Psycholinguistics: Annual Report 2002. Nijmegen: MPI for Psycholinguistics.
  • Cho, T. (2002). The effects of prosody on articulation in English. New York: Routledge.
  • Coulson, S., & Lai, V. T. (Eds.). (2016). The metaphorical brain [Research topic]. Lausanne: Frontiers Media. doi:10.3389/978-2-88919-772-9.

    Abstract

    This Frontiers Special Issue will synthesize current findings on the cognitive neuroscience of metaphor, provide a forum for voicing novel perspectives, and promote new insights into the metaphorical brain.
  • Dietrich, R., Klein, W., & Noyau, C. (1995). The acquisition of temporality in a second language. Amsterdam: Benjamins.
  • Fernandez-Vest, M. M. J., & Van Valin Jr., R. D. (Eds.). (2016). Information structure and spoken language in a cross-linguistics perspective. Berlin: Mouton de Gruyter.
  • Hagoort, P. (Ed.). (2019). Human language: From genes and brains to behavior. Cambridge, MA: MIT Press.
  • Hendriks, H., & McQueen, J. M. (1995). Max-Planck-Institute for Psycholinguistics: Annual Report Nr.16 1995. Nijmegen: MPI for Psycholinguistics.
  • Holler, J., Kendrick, K. H., Casillas, M., & Levinson, S. C. (Eds.). (2016). Turn-Taking in Human Communicative Interaction. Lausanne: Frontiers Media. doi:10.3389/978-2-88919-825-2.

    Abstract

    The core use of language is in face-to-face conversation. This is characterized by rapid turn-taking. This turn-taking poses a number central puzzles for the psychology of language.

    Consider, for example, that in large corpora the gap between turns is on the order of 100 to 300 ms, but the latencies involved in language production require minimally between 600ms (for a single word) or 1500 ms (for as simple sentence). This implies that participants in conversation are predicting the ends of the incoming turn and preparing in advance. But how is this done? What aspects of this prediction are done when? What happens when the prediction is wrong? What stops participants coming in too early? If the system is running on prediction, why is there consistently a mode of 100 to 300 ms in response time?

    The timing puzzle raises further puzzles: it seems that comprehension must run parallel with the preparation for production, but it has been presumed that there are strict cognitive limitations on more than one central process running at a time. How is this bottleneck overcome? Far from being 'easy' as some psychologists have suggested, conversation may be one of the most demanding cognitive tasks in our everyday lives. Further questions naturally arise: how do children learn to master this demanding task, and what is the developmental trajectory in this domain?

    Research shows that aspects of turn-taking such as its timing are remarkably stable across languages and cultures, but the word order of languages varies enormously. How then does prediction of the incoming turn work when the verb (often the informational nugget in a clause) is at the end? Conversely, how can production work fast enough in languages that have the verb at the beginning, thereby requiring early planning of the whole clause? What happens when one changes modality, as in sign languages -- with the loss of channel constraints is turn-taking much freer? And what about face-to-face communication amongst hearing individuals -- do gestures, gaze, and other body behaviors facilitate turn-taking? One can also ask the phylogenetic question: how did such a system evolve? There seem to be parallels (analogies) in duetting bird species, and in a variety of monkey species, but there is little evidence of anything like this among the great apes.

    All this constitutes a neglected set of problems at the heart of the psychology of language and of the language sciences. This research topic welcomes contributions from right across the board, for example from psycholinguists, developmental psychologists, students of dialogue and conversation analysis, linguists interested in the use of language, phoneticians, corpus analysts and comparative ethologists or psychologists. We welcome contributions of all sorts, for example original research papers, opinion pieces, and reviews of work in subfields that may not be fully understood in other subfields.
  • Kita, S. (Ed.). (2002). 2002 Supplement (version 3) for the Manual for the field season 2001. Nijmegen: Max Planck Institute for Psycholinguistics.
  • Kita, S. (2002). Jesuchaa: kangaeru karada: Gesture: the body that thinks. Tokyo: Kaneko Shobo.
  • Klein, W. (2002). Time in language (in Korean, translated by Soo-Song Shin). Seoul: Doseo-chul-phan Yeok lak.
  • Levinson, S. C. (2002). Pragmatics [Chinese translation]. Cambridge: Cambridge University Press.
  • Saito, H., & Kita, S. (Eds.). (2002). Jesuchaa, kooi, imi [Gesture, action, meaning]. Tokyo: Kyooritsu Shuppan.
  • Schmid, M. S., Berends, S. M., Bergmann, C., Brouwer, S., Meulman, N., Seton, B., Sprenger, S., & Stowe, L. A. (2016). Designing research on bilingual development: Behavioral and neurolinguistic experiments. Berlin: Springer.
  • Seifart, F. (2002). El sistema de clasificación nominal del miraña. Bogotá: CCELA/Universidad de los Andes.
  • Senft, G., & Wilkins, D. (1995). A man, a tree, and forget about the pigs: Space games, spatial reference and cross-linguistic comparison. Plenary paper presented by at the 19th international LAUD symposium "Language and space" Duisburg. Mimeo: Nijmegen.
  • Seuren, P. A. M. (2016). Excursies in de tijd: Episodes uit de geschiedenis van onze beschaving. Beilen: Pharos uitgevers.
  • Spapé, M., Verdonschot, R. G., & Van Steenbergen, H. (2019). The E-Primer: An introduction to creating psychological experiments in E-Prime® (2nd ed. updated for E-Prime 3). Leiden: Leiden University Press.

    Abstract

    E-Prime® is the leading software suite by Psychology Software Tools for designing and running Psychology lab experiments. The E-Primer is the perfect accompanying guide: It provides all the necessary knowledge to make E-Prime accessible to everyone. You can learn the tools of Psychological science by following the E-Primer through a series of entertaining, step-by-step recipes that recreate classic experiments. The updated E-Primer expands its proven combination of simple explanations, interesting tutorials and fun exercises, and makes even the novice student quickly confident to create their dream experiment.
  • Speed, L. J., O'Meara, C., San Roque, L., & Majid, A. (Eds.). (2019). Perception Metaphors. Amsterdam: Benjamins.

    Abstract

    Metaphor allows us to think and talk about one thing in terms of another, ratcheting up our cognitive and expressive capacity. It gives us concrete terms for abstract phenomena, for example, ideas become things we can grasp or let go of. Perceptual experience—characterised as physical and relatively concrete—should be an ideal source domain in metaphor, and a less likely target. But is this the case across diverse languages? And are some sensory modalities perhaps more concrete than others? This volume presents critical new data on perception metaphors from over 40 languages, including many which are under-studied. Aside from the wealth of data from diverse languages—modern and historical; spoken and signed—a variety of methods (e.g., natural language corpora, experimental) and theoretical approaches are brought together. This collection highlights how perception metaphor can offer both a bedrock of common experience and a source of continuing innovation in human communication
  • Terrill, A. (2002). Dharumbal: The language of Rockhampton, Australia. Canberra: Pacific Linguistics.
  • Troncarelli, M. C., & Drude, S. (2002). Awytyza Ti'ingku. Livro para alfabetização na língua aweti: Awytyza Ti’ingku. Alphabetisierungs‐Fibel der Awetí‐Sprache. São Paulo: Instituto Sócio-Ambiental.

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