Publications

Displaying 1 - 51 of 51
  • Yu, X. (2021). Foreign language learning in study-abroad and at-home contexts. PhD Thesis, Raboud University Nijmegen, Nijmegen.
  • Armeni, K. (2021). On model-based neurobiology of language comprehension: Neural oscillations, processing memory, and prediction. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Bauer, B. L. M. (1992). Du latin au français: Le passage d'une langue SOV à une langue SVO. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Bentum, M. (2021). Listening with great expectations: A study of predictive natural speech processing. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Cutler, A., Aslin, R. N., Gervain, J., & Nespor, M. (Eds.). (2021). Special issue in honor of Jacques Mehler, Cognition's founding editor [Special Issue]. Cognition, 213.
  • Dingemanse, M. (2011). The meaning and use of ideophones in Siwu. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Ellert, M. (2011). Ambiguous pronoun resolution in L1 and L2 German and Dutch. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Ernestus, M., & Warner, N. (Eds.). (2011). Speech reduction [Special Issue]. Journal of Phonetics, 39(SI).
  • Evans, N., Levinson, S. C., & Sterelny, K. (Eds.). (2021). Thematic issue on evolution of kinship systems [Special Issue]. Biological theory, 16.
  • Eviatar, Z., & Huettig, F. (Eds.). (2021). Literacy and writing systems [Special Issue]. Journal of Cultural Cognitive Science.
  • Felker, E. R. (2021). Learning second language speech perception in natural settings. PhD Thesis, Radboud University, Nijmegen.
  • FitzPatrick, I. (2011). Lexical interactions in non-native speech comprehension: Evidence from electro-encephalography, eye-tracking, and functional magnetic resonance imaging. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Frances, C. (2021). Semantic richness, semantic context, and language learning. PhD Thesis, Universidad del País Vasco-Euskal Herriko Unibertsitatea, Donostia.

    Abstract

    As knowing a foreign language becomes a necessity in the modern world, a large portion of the population is faced with the challenge of learning a language in a classroom. This, in turn, presents a unique set of difficulties. Acquiring a language with limited and artificial exposure makes learning new information and vocabulary particularly difficult. The purpose of this thesis is to help us understand how we can compensate—at least partially—for these difficulties by presenting information in a way that aids learning. In particular, I focused on variables that affect semantic richness—meaning the amount and variability of information associated with a word. Some factors that affect semantic richness are intrinsic to the word and others pertain to that word’s relationship with other items and information. This latter group depends on the context around the to-be- learned items rather than the words themselves. These variables are easier to manipulate than intrinsic qualities, making them more accessible tools for teaching and understanding learning. I focused on two factors: emotionality of the surrounding semantic context and contextual diversity. Publication 1 (Frances, de Bruin, et al., 2020b) focused on content learning in a foreign language and whether the emotionality—positive or neutral—of the semantic context surrounding key information aided its learning. This built on prior research that showed a reduction in emotionality in a foreign language. Participants were taught information embedded in either positive or neutral semantic contexts in either their native or foreign language. When they were then tested on these embedded facts, participants’ performance decreased in the foreign language. But, more importantly, they remembered better the information from the positive than the neutral semantic contexts. In Publication 2 (Frances, de Bruin, et al., 2020a), I focused on how emotionality affected vocabulary learning. I taught participants the names of novel items described either in positive or neutral terms in either their native or foreign language. Participants were then asked to recall and recognize the object's name—when cued with its image. The effects of language varied with the difficulty of the task—appearing in recall but not recognition tasks. Most importantly, learning the words in a positive context improved learning, particularly of the association between the image of the object and its name. In Publication 3 (Frances, Martin, et al., 2020), I explored the effects of contextual diversity—namely, the number of texts a word appears in—on native and foreign language word learning. Participants read several texts that had novel pseudowords. The total number of encounters with the novel words was held constant, but they appeared in 1, 2, 4, or 8 texts in either their native or foreign language. Increasing contextual diversity—i.e., the number of texts a word appeared in—improved recall and recognition, as well as the ability to match the word with its meaning. Using a foreign language only affected performance when participants had to quickly identify the meaning of the word. Overall, I found that the tested contextual factors related to semantic richness—i.e., emotionality of the semantic context and contextual diversity—can be manipulated to improve learning in a foreign language. Using positive emotionality not only improved learning in the foreign language, but it did so to the same extent as in the native language. On a theoretical level, this suggests that the reduction in emotionality in a foreign language is not ubiquitous and might relate to the way in which that language as learned. The third article shows an experimental manipulation of contextual diversity and how this can affect learning of a lexical item, even if the amount of information known about the item is kept constant. As in the case of emotionality, the effects of contextual diversity were also the same between languages. Although deducing words from context is dependent on vocabulary size, this does not seem to hinder the benefits of contextual diversity in the foreign language. Finally, as a whole, the articles contained in this compendium provide evidence that some aspects of semantic richness can be manipulated contextually to improve learning and memory. In addition, the effects of these factors seem to be independent of language status—meaning, native or foreign—when learning new content. This suggests that learning in a foreign and a native language is not as different as I initially hypothesized, allowing us to take advantage of native language learning tools in the foreign language, as well.
  • Gipper, S. (2011). Evidentiality and intersubjectivity in Yurakaré: An interactional account. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Greenfield, M. D., Honing, H., Kotz, S. A., & Ravignani, A. (Eds.). (2021). Synchrony and rhythm interaction: From the brain to behavioural ecology [Special Issue]. Philosophical Transactions of the Royal Society of London, Series B: Biological Sciences, 376.
  • Hartsuiker, R. J., Huettig, F., & Olivers, C. N. (Eds.). (2011). Visual search and visual world: Interactions among visual attention, language, and working memory [Special Issue]. Acta Psychologica, 137(2). doi:10.1016/j.actpsy.2011.01.005.
  • Hintz, F. (2011). Language-mediated eye movements and cognitive control. Master Thesis, Max Planck Institute for Psycholinguistics (Nijmegen)/University of Leipzig.
  • Huisman, J. L. A. (2021). Variation in form and meaning across the Japonic language family: With a focus on the Ryukyuan languages. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Junge, C. (2011). The relevance of early word recognition: Insights from the infant brain. PhD Thesis, Radboud University Nijmegen, Nijmegen.

    Abstract

    Baby's begrijpen woorden eerder dan dat ze deze zeggen. Dit stadium is onderbelicht want moeilijk waarneembaar. Caroline Junge onderzocht de vaardigheden die nodig zijn voor het leren van de eerste woordjes: conceptherkenning, woordherkenning en het verbinden van woord aan betekenis. Daarvoor bestudeerde ze de hersenpotentialen van het babybrein tijdens het horen van woordjes. Junge stelt vast dat baby's van negen maanden al woordbegrip hebben. En dat is veel vroeger dan tot nu toe bekend was. Als baby's een woord hoorde dat niet klopte met het plaatje dat ze zagen, lieten ze een N400-effect zien, een klassiek hersenpotentiaal. Uit eerder Duits onderzoek is gebleken dat baby's van twaalf maanden dit effect nog niet laten zien, omdat de hersenen nog niet rijp zouden zijn. Het onderzoek van Junge weerlegt dit. Ook laat ze zien dat als baby's goed woorden kunnen herkennen binnen zinnetjes, dit belangrijk is voor hun latere taalontwikkeling, wat mogelijk tot nieuwe therapieën voor taalstoornissen zal leiden.

    Additional information

    full text via Radboud Repository
  • Kaufeld, G. (2021). Investigating spoken language comprehension as perceptual inference. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Klein, W. (Ed.). (1976). Psycholinguistik [Special Issue]. Zeitschrift für Literaturwissenschaft und Linguistik, (23/24).
  • Klein, W., & Meibauer, J. (Eds.). (2011). Spracherwerb und Kinderliteratur [Special Issue]. Zeitschrift für Literaturwissenschaft und Linguistik, 162.
  • Klein, W. (Ed.). (1992). Textlinguistik [Special Issue]. Zeitschrift für Literaturwissenschaft und Linguistik, (86).
  • De León, L., & Levinson, S. C. (Eds.). (1992). Space in Mesoamerican languages [Special Issue]. Zeitschrift für Phonetik, Sprachwissenschaft und Kommunikationsforschung, 45(6).
  • Levshina, N., & Moran, S. (Eds.). (2021). Efficiency in human languages: Corpus evidence for universal principles [Special Issue]. Linguistics Vanguard, 7(s3).
  • Lopopolo, A. (2021). Properties, structures and operations: Studies on language processing in the brain using computational linguistics and naturalistic stimuli. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Majid, A., & Levinson, S. C. (Eds.). (2011). The senses in language and culture [Special Issue]. The Senses & Society, 6(1).
  • Manhardt, F. (2021). A tale of two modalities. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Mickan, A. (2021). What was that Spanish word again? Investigations into the cognitive mechanisms underlying foreign language attrition. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Postema, M. (2021). Left-right asymmetry of the human brain: Associations with neurodevelopmental disorders and genetic factors. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Redl, T. (2021). Masculine generic pronouns: Investigating the processing of an unintended gender cue. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Robinson, S. (2011). Split intransitivity in Rotokas, a Papuan language of Bougainville. PhD Thesis, Radboud University, Nijmegen.
  • Scheeringa, R. (2011). On the relation between oscillatory EEG activity and the BOLD signal. PhD Thesis, Radboud University Nijmegen, Nijmegen.

    Abstract

    Functional Magnetic Resonance Imaging (fMRI) and Electropencephalography (EEG) are the two techniques that are most often used to study the working brain. With the first technique we use the MRI machine to measure where in the brain the supply of oxygenated blood increases as result of an increased neural activity with a high precision. The temporal resolution of this measure however is limited to a few seconds. With EEG we measure the electrical activity of the brain with millisecond precision by placing electrodes on the skin of the head. We can think of the EEG signal as a signal that consists of multiple superimposed frequencies that vary their strength over time and when performing a cognitive task. Since we measure EEG at the level of the scalp, it is difficult to know where in the brain the signals exactly originate from. For about a decade we are able to measure fMRI and EEG at the same time, which possibly enables us to combine the superior spatial resolution of fMRI with the superior temporal resolution of EEG. To make this possible, we need to understand how the EEG signal is related to the fMRI signal, which is the central theme of this thesis. The main finding in this thesis is that increases in the strength of EEG frequencies below 30 Hz are related to a decrease in the fMRI signal strength, while increases in the strength of frequencies above 40 Hz is related to an increase in the strength of the fMRI signal. Changes in the strength of the low EEG frequencies are however are not coupled to changes in high frequencies. Changes in the strength of low and high EEG frequencies therefore contribute independently to changes in the fMRI signal.
  • Schubotz, L. (2021). Effects of aging and cognitive abilities on multimodal language production and comprehension in context. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Sjerps, M. J. (2011). Adjusting to different speakers: Extrinsic normalization in vowel perception. PhD Thesis, Radboud University Nijmegen, Nijmegen.

    Abstract

    Op een gemiddelde dag luisteren mensen naar spraak van heel veel verschillende mensen. Die hebben allemaal een ander stemgeluid, waardoor de woorden die zij uitspreken verschillend klinken. Luisteraars hebben daar echter weinig hinder van. Hoe is het mogelijk dat luisteraars zich zo gemakkelijk kunnen aanpassen aan verschillende sprekers? Matthias Sjerps onderzocht in zijn proefschrift een cognitief mechanisme dat luisteraars helpt om zich aan te passen aan de karakteristieken van verschillende sprekers. Hierbij maakt een luisteraar gebruik van informatie in de context. Dit mechanisme blijkt vroeg in de spraakverwerking plaats te vinden. Bovendien beïnvloedt dit mechanisme ook de perceptie van andere geluiden dan spraak. Dit laat zien dat het een zeer breed en algemeen perceptueel mechanisme betreft. Contexteffecten bleken echter sterker voor spraakgeluiden dan voor andere geluiden. Dit suggereert dat het onderzochte mechanisme, ook al is het algemeen en breed toepasbaar, versterkt kan worden door blootstelling aan taal.

    Additional information

    full text via Radboud Repository
  • Stehouwer, H. (2011). Statistical langauge models for alternative sequence selection. PhD Thesis, Tilburg University.
  • Todorova, L. (2021). Language bias in visually driven decisions: Computational neurophysiological mechanisms. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Torreira, F. (2011). Speech reduction in spontaneous French and Spanish. PhD Thesis, Radboud University Nijmegen, Nijmegen.

    Abstract

    Spraakklanken, lettergrepen en woorden worden vaak minder duidelijk uitgesproken in spontane conversaties dan in formelere spreekstijlen. Dit proefschrift presenteert onderzoek naar spraakreductie in spontaan Frans en Spaans. Naar deze talen is tot nu toe weinig spraakreductieonderzoek gedaan. Er worden twee nieuwe grote corpora met spontaan Frans en Spaans beschreven. Op basis van deze corpora heb ik enkele onderzoeken gedaan waarin ik de volgende belangrijke conclusies heb getrokken. Allereerst vond ik dat akoestische data van spontane spraak waardevolle informatie kan geven over de vraag of specifieke reductiefenomenen categoriaal of continu zijn. Verder vond ik, in tegenstelling tot onderzoek naar Germaanse talen, slechts gedeeltelijk bewijs dat spraakreductie in Romaanse talen als het Frans en het Spaans beïnvloed wordt door de eigenschappen en voorspelbaarheid van het woord. Ten derde vond ik door spontaan Frans en Spaans te vergelijken dat spraakreductie tussen talen meer kan verschillen dan je zou verwachten op basis van laboratoriumonderzoek

    Additional information

    full text via Radboud Repository
  • Trompenaars, T. (2021). Bringing stories to life: Animacy in narrative and processing. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Tsoukala, C. (2021). Bilingual sentence production and code-switching: Neural network simulations. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Tuinman, A. (2011). Processing casual speech in native and non-native language. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Van Dijk, C. N. (2021). Cross-linguistic influence during real-time sentence processing in bilingual children and adults. PhD Thesis, Raboud University Nijmegen, Nijmegen.
  • Van der Linden, M. (2011). Experience-based cortical plasticity in object category representation. PhD Thesis, Radboud University Nijmegen, Nijmegen.

    Abstract

    Marieke van der Linden investigated the neural mechanisms underlying category formation in the human brain. The research in her thesis provides novel insights in how the brain learns, stores, and uses category knowledge, enabling humans to become skilled in categorization. The studies reveal the neural mechanisms through which perceptual as well as conceptual category knowledge is created and shaped by experience. The results clearly show that neuronal sensitivity to object features is affected by categorization training. These findings fill in a missing link between electrophysiological recordings from monkey cortex demonstrating learning-induced sharpening of neuronal selectivity and brain imaging data showing category-specific representations in the human brain. Moreover, she showed that it is specifically the features of an object that are relevant for its categorization that induce selectivity in neuronal populations. Category-learning requires collaboration between many different brain areas. Together these can be seen as the neural correlates of the key points of categorization: discrimination and generalization. The occipitotemporal cortex represents those characteristic features of objects that define its category. The narrowly shape-tuned properties of this area enable fine-grained discrimination of perceptually similar objects. In addition, the superior temporal sulcus forms associations between members or properties (i.e. sound and shape) of a category. This allows the generalization of perceptually different but conceptually similar objects. Last but not least is the prefrontal cortex which is involved in coding behaviourally-relevant category information and thus enables the explicit retrieval of category membership.
  • Van Leeuwen, T. (2011). How one can see what is not there: Neural mechanisms of grapheme-colour synasthesia. PhD Thesis, Radboud University Nijmegen, Nijmegen.

    Abstract

    People with grapheme-colour synaesthesia experience colour for letters of the alphabet or digits; A can be red and B can be green. How can it be, that people automatically see a colour where only black letters are printed on the paper? With brain scans (fMRI) I showed that (black) letters activate the colour area of the brain (V4) and also a brain area that is important for combining different types of information (SPL). We found that the location where synaesthetes subjectively experience their colours is related to the order in which these brain areas become active. Some synaesthetes see their colour ‘projected onto the letter’, similar to real colour experiences, and in this case colour area V4 becomes active first. If the colours appear like a strong association without a fixed location in space, SPL becomes active first, similar to what happens for normal memories. In a last experiment we showed that in synaesthetes, attention is captured by real colour very strongly, stronger than for control participants. Perhaps this attention effect of colour can explain how letters and colours become coupled in synaesthetes.
  • Van Paridon, J. (2021). Speaking while listening: Language processing in speech shadowing and translation. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • van der Burght, C. L. (2021). The central contribution of prosody to sentence processing: Evidence from behavioural and neuroimaging studies. PhD Thesis, Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig.
  • Van de Ven, M. A. M. (2011). The role of acoustic detail and context in the comprehension of reduced pronunciation variants. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Verdonschot, R. G. (2011). Word processing in languages using non-alphabetic scripts: The cases of Japanese and Chinese. PhD Thesis, Leiden University, Leiden, The Netherlands.

    Abstract

    This thesis investigates the processing of words written in Japanese kanji and Chinese hànzì, i.e. logographic scripts. Special attention is given to the fact that the majority of Japanese kanji have multiple pronunciations (generally depending on the combination a kanji forms with other characters). First, using masked priming, it is established that upon presentation of a Japanese kanji multiple pronunciations are activated. In subsequent experiments using word naming with context pictures it is concluded that both Chinese hànzì and Japanese kanji are read out loud via a direct route from orthography to phonology. However, only Japanese kanji become susceptible to semantic or phonological context effects as a result of a cost due to the processing of multiple pronunciations. Finally, zooming in on the size of the articulatory planning unit in Japanese it is concluded that the mora as a phonological unit best complies with the observed data pattern and not the phoneme or the syllable
  • Verhoef, E. (2021). Why do we change how we speak? Multivariate genetic analyses of language and related traits across development and disorder. PhD Thesis, Radboud University Nijmegen, Nijmegen.
  • Vernes, S. C., Janik, V. M., Fitch, W. T., & Slater, P. J. B. (Eds.). (2021). Vocal learning in animals and humans [Special Issue]. Philosophical Transactions of the Royal Society of London, Series B: Biological Sciences, 376.
  • Wang, L. (2011). The influence of information structure on language comprehension: A neurocognitive perspective. PhD Thesis, Radboud University Nijmegen, Nijmegen.

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