What Limits Our Capacity to Process Nested Long-Range Dependencies in Sentence Comprehension?

Sentence comprehension requires inferring, from a sequence of words, the structure of syntactic relationships that bind these words into a semantic representation. Our limited ability to build some specific syntactic structures, such as nested center-embedded clauses (e.g., “The dog that the cat that the mouse bit chased ran away”), suggests a striking capacity limitation of sentence processing, and thus offers a window to understand how the human brain processes sentences. Here, we review the main hypotheses proposed in psycholinguistics to explain such capacity limitation. We then introduce an alternative approach, derived from our recent work on artificial neural networks optimized for language modeling, and predict that capacity limitation derives from the emergence of sparse and feature-specific syntactic units. Unlike psycholinguistic theories, our neural network-based framework provides precise capacity-limit predictions without making any a priori assumptions about the form of the grammar or parser. Finally, we discuss how our framework may clarify the mechanistic underpinning of language processing and its limitations in the human brain.

Download Full-text

The Modularity of Sentence Processing Reconsidered

10.1093/oso/9780190464783.003.0004 ◽

2017 ◽

Author(s):

Fernanda Ferreira ◽

James Nye

Keyword(s):

Language Processing ◽

Sentence Processing ◽

Sentence Comprehension ◽

Experimental Investigations ◽

Modular Architecture ◽

New Findings ◽

Modular Architectures ◽

Processing Module ◽

Almost All

Today, the modular view of sentence processing is unpopular, but the arguments against modularity are not as strong as this apparent consensus would suggest. Almost all experimental investigations of modularity have focused on properties pertaining to information encapsulation, and most of those studies have evaluated just one specific modular architecture. A review of these studies of sentence comprehension suggests that the evidence against information encapsulation is really evidence against that one architecture only, and a whole range of other possible modular architectures remain untested. Although psycholinguistic work has largely ignored the modularity claims relating to shallow outputs, new findings from studies to test “good enough” language processing suggest that the output of the language processing module can be characterized as shallow or minimal. Perhaps, then, the modularity hypothesis was prematurely rejected. Evidence for shallow outputs provides intriguing new support for the idea that sentence processing is indeed modular.

Download Full-text

Co-localization of Stroop and Syntactic Ambiguity Resolution in Broca's Area: Implications for the Neural Basis of Sentence Processing

Journal of Cognitive Neuroscience ◽

10.1162/jocn.2008.21179 ◽

2009 ◽

Vol 21 (12) ◽

pp. 2434-2444 ◽

Cited By ~ 131

Author(s):

David January ◽

John C. Trueswell ◽

Sharon L. Thompson-Schill

Keyword(s):

Prefrontal Cortex ◽

Cognitive Control ◽

Language Processing ◽

Sentence Processing ◽

Sentence Comprehension ◽

Syntactic Ambiguity ◽

Broca’S Area ◽

Broca's Area ◽

Neural Basis ◽

Control Processes

For over a century, a link between left prefrontal cortex and language processing has been accepted, yet the precise characterization of this link remains elusive. Recent advances in both the study of sentence processing and the neuroscientific study of frontal lobe function suggest an intriguing possibility: The demands to resolve competition between incompatible characterizations of a linguistic stimulus may recruit top–down cognitive control processes mediated by prefrontal cortex. We use functional magnetic resonance imaging to test the hypothesis that individuals use shared prefrontal neural circuitry during two very different tasks—color identification under Stroop conflict and sentence comprehension under conditions of syntactic ambiguity—both of which putatively rely on cognitive control processes. We report the first demonstration of within-subject overlap in neural responses to syntactic and nonsyntactic conflict. These findings serve to clarify the role of Broca's area in, and the neural and psychological organization of, the language processing system.

Download Full-text

Effects of Dispositional Affect on the N400: Language Processing and Socially Situated Context

Frontiers in Psychology ◽

10.3389/fpsyg.2021.566894 ◽

2021 ◽

Vol 12 ◽

Author(s):

Veena D. Dwivedi ◽

Janahan Selvanayagam

Keyword(s):

Negative Affect ◽

Real Time ◽

Language Processing ◽

Sentence Processing ◽

Sentence Comprehension ◽

Event Related Potential ◽

Direct Object ◽

Positive And Negative Affect ◽

Object Type ◽

Socially Situated

We examined whether the N400 Event-Related Potential (ERP) component would be modulated by dispositional affect during sentence processing. In this study, 33 participants read sentences manipulated by direct object type (congruent vs. incongruent) and object determiner type (definite vs. demonstrative). We were particularly interested in sentences of the form: (i) The connoisseur tasted thewineon the tour vs. (ii) The connoisseur tasted the #roof… We expected that processing incongruent direct objects (#roof) vs. congruent objects (wine) would elicit N400 effects. Previous ERP language experiments have shown that participants in (induced) positive and negative moods were differentially sensitive to semantic anomaly, resulting in different N400 effects. Presently, we ask whether individual dispositional affect scores (as measured by the Positive and Negative Affect Schedule; PANAS) would modulate N400 effects as shown previously. Namely, previous results showed larger N400 effects associated with happy moods and attenuated amplitudes associated with sad moods. Results revealed significant N400 effects, driven by the #roof vs. the wine, where larger amplitude differences were found for individuals showing smaller negative affect (NA) scores, thus partially replicating previous findings. We discuss our results in terms of theories of local (lexical) inhibition, such that low NA promotes stronger lexico-semantic links in sentences. Finally, our results support accounts of language processing that include social and biological characteristics of individuals during real-time sentence comprehension.

Download Full-text

Event-related brain potential (ERP) studies of sentence processing

The Oxford Handbook of Psycholinguistics ◽

10.1093/oxfordhb/9780198568971.013.0023 ◽

2007 ◽

pp. 384-406 ◽

Cited By ~ 4

Author(s):

Marta Kutas ◽

Kara D. Federmeier

Keyword(s):

Human Brain ◽

Language Processing ◽

Sentence Processing ◽

Context Effects ◽

Brain Potentials ◽

Ion Flow ◽

Invasive Techniques ◽

Brain Processing ◽

The Brain ◽

Processing Language

The intact human brain is the only known system that can interpret and respond to various visual and acoustic patterns. Therefore, unlike researchers of other cognitive phenomena, (neuro)psycholinguists cannot avail themselves of invasive techniques in non-human animals to uncover the responsible mechanisms in the large parts of the (human) brain that have been implicated in language processing. Engagement of these different anatomical areas does, however, generate distinct patterns of biological activity (such as ion flow across neural membranes) that can be recorded inside and outside the heads of humans as they quickly, often seamlessly, and without much conscious reflection on the computations and linguistic regularities involved, understand spoken, written, or signed sentences. This article summarizes studies of event-related brain potentials and sentence processing. It discusses electrophysiology, language and the brain, processing language meaning, context effects in meaning processing, non-literal language processing, processing language form, parsing, slow potentials and the closure positive shift, and plasticity and learning.

Download Full-text

Sentence Processing in Traumatic Brain Injury: Evidence From the P600

Journal of Speech Language and Hearing Research ◽

10.1044/2016_jslhr-l-15-0104 ◽

2016 ◽

Vol 59 (4) ◽

pp. 759-771 ◽

Cited By ~ 3

Author(s):

Sarah E. Key-DeLyria

Keyword(s):

Traumatic Brain Injury ◽

Brain Injury ◽

Language Processing ◽

Sentence Processing ◽

Sentence Comprehension ◽

Closed Head Injury ◽

Event Related Potentials ◽

Control Group ◽

Severe Injuries ◽

Related Potentials

PurposeSentence processing can be affected following a traumatic brain injury (TBI) due to linguistic or cognitive deficits. Language-related event-related potentials (ERPs), particularly the P600, have not been described in individuals with TBI history.MethodFour young adults with a history of closed head injury participated. Two had severe injuries, and 2 had mild–moderate injuries more than 24 months prior to testing. ERPs were recorded while participants read sentences designed to be grammatically correct or incorrect. Participants also completed cognitive and sentence comprehension measures.ResultsOne participant with TBI was significantly different than the control group on several behavioral sentence measures and 1 cognitive measure. However, none of the participants with TBI had a reliable P600 effect. Nonparametric bootstrapping indicated that the ERP was reliable in 10 control participants but no participants with TBI history.ConclusionsThere were few behavioral differences between individuals with TBI history and the control group, though all reported subjective difficulty with reading. The P600 was absent in the TBI group in this study. Given the heterogeneity of individuals with TBI and the difficulty in assessing subtle language impairments, exploring the P600 further may provide useful insight into language processing difficulties.

Download Full-text

The impact of pragmatic markers and hedging on sentence comprehension: a case study ofcommeandgenre

Journal of French Language Studies ◽

10.1017/s0959269516000247 ◽

2016 ◽

Vol 27 (3) ◽

pp. 355-380

Author(s):

INGA HENNECKE

Keyword(s):

Language Processing ◽

Sentence Processing ◽

Sentence Comprehension ◽

Experimental Investigations ◽

Speech Comprehension ◽

Verification Task ◽

Semantic Meaning ◽

Pragmatic Markers ◽

Word Classes ◽

The Impact

ABSTRACTCurrent research on conceptual and semantic representations is mainly based on prototypical word classes, such as nouns and verbs. Hence, most models of language processing and language representation rely on experimental investigations on these word classes. Until today, only a few psycholinguistic studies centre on the processing of pragmatic markers and hedges and their effect on speech comprehension. The present article aims to give experimental evidence for the processing of semantic meaning patterns and pragmatic functions of pragmatic markers. The focus will be on the question, if pragmatic markers and hedges play a role in sentence processing. This main problem will be illustrated and discussed by means of experimental data. In a monolingual sentence verification task with lexical decision, the meaning patterns and functions of the partially equivalent pragmatic French markerscommeandgenreare investigated in Canadian and European French. The results of the sentence word verification task provide evidence for an impact of pragmatic functions and semantic meaning patterns of pragmatic markers on sentence processing.

Download Full-text

YanFarmerJaeger_EyeTrackingAdaptation

10.31234/osf.io/ha59w ◽

2019 ◽

Author(s):

SHAORONG YAN ◽

Thomas A. Farmer ◽

T. Florian Jaeger

Keyword(s):

Eye Movement ◽

Language Processing ◽

Sentence Processing ◽

Crucial Role ◽

Experimental Task ◽

Slow Time ◽

Syntactic Structures ◽

First Pass ◽

Reading Measures ◽

First Time

Implicit expectations play a crucial role during language processing. These expectations are often assumed to be static once acquired, or to change only at relatively slow time scales.Some theoretical proposals, however, hold that comprehenders continuously adapt their expectations based on recent input, and that this adaptation underlies phenomena such as syntactic priming. Existing evidence from research on sentence processing has confounded adaptation to the experimental task with evidence for expectation adaptation. Here we eliminate this confound by, for the first time, investigating expectation adaptation during natural reading. In two eye-tracking experiments, subjects read sentences that contain a higher than expected proportion of a previously unexpected structure (reduced relative clauses). We inspect whether and how syntactic adaptation manifests in the eye-movement measures: if subjects adapt their syntactic expectations, their reading times for unexpected syntactic structures should decrease over the course of the experiment. This prediction is confirmed in both experiments, providing evidence for expectation adaptation during naturalreading. Specifically, we find evidence for syntactic adaptation primarily for regression-related measures but not first pass reading measures. We discuss the different possible accounts of this pattern of syntactic adaptation in the eye-movement record.

Download Full-text

fMRI reveals language-specific predictive coding during naturalistic sentence comprehension

10.1101/717512 ◽

2019 ◽

Cited By ~ 2

Author(s):

Cory Shain ◽

Idan Asher Blank ◽

Marten van Schijndel ◽

William Schuler ◽

Evelina Fedorenko

Keyword(s):

Hierarchical Structure ◽

Language Processing ◽

Sentence Processing ◽

Executive Control ◽

Sentence Comprehension ◽

Predictive Coding ◽

Control Mechanisms ◽

Hemodynamic Response Function ◽

Domain Specific ◽

Language Network

AbstractMuch research in cognitive neuroscience supports prediction as a canonical computation of cognition across domains. Is such predictive coding implemented by feedback from higher-order domain-general circuits, or is it locally implemented in domain-specific circuits? What information sources are used to generate these predictions? This study addresses these two questions in the context of language processing. We present fMRI evidence from a naturalistic comprehension paradigm (1) that predictive coding in the brain’s response to language is domain-specific, and (2) that these predictions are sensitive both to local word co-occurrence patterns and to hierarchical structure. Using a recently developed continuous-time deconvolutional regression technique that supports data-driven hemodynamic response function discovery from continuous BOLD signal fluctuations in response to naturalistic stimuli, we found effects of prediction measures in the language network but not in the domain-general multiple-demand network, which supports executive control processes and has been previously implicated in language comprehension. Moreover, within the language network, surface-level and structural prediction effects were separable. The predictability effects in the language network were substantial, with the model capturing over 37% of explainable variance on held-out data. These findings indicate that human sentence processing mechanisms generate predictions about upcoming words using cognitive processes that are sensitive to hierarchical structure and specialized for language processing, rather than via feedback from high-level executive control mechanisms.

Download Full-text

An fMRI Study of Syntactic Adaptation

Journal of Cognitive Neuroscience ◽

10.1162/089892904323057399 ◽

2004 ◽

Vol 16 (4) ◽

pp. 702-713 ◽

Cited By ~ 89

Author(s):

U. Noppeney ◽

C. J. Price

Keyword(s):

Sentence Processing ◽

Reading Time ◽

Sentence Comprehension ◽

Blood Oxygenation ◽

Behavioral Measure ◽

Syntactic Structures ◽

Sentence Reading ◽

Fmri Study ◽

Oxygenation Level ◽

Mri Study

It is easier to produce and comprehend a series of sentences when they have similar syntactic structures. This “syntactic priming” effect was investigated during silent sentence reading using (i) blood oxygenation level-dependent (BOLD) response as a physiological measure in an f MRI study and (ii) reading time as a behavioral measure in a complementary selfpaced reading paradigm. We found that reading time and left anterior temporal activation were decreased when subjects read sentences with similar relative to dissimilar syntactic forms. Thus, syntactic adaptation during sentence comprehension is demonstrated in a neural area that has previously been linked to both lexical semantic and sentence processing.

Download Full-text

Do we rely on good-enough processing in reading under auditory and visual noise?

10.31234/osf.io/ahm9v ◽

2021 ◽

Author(s):

Nina Zdorova ◽

Svetlana Malyutina ◽

Anna Laurinavichyute ◽

Anastasiia Kaprielova ◽

Kromina Anastasia ◽

...

Keyword(s):

Language Processing ◽

Sentence Processing ◽

Sentence Comprehension ◽

Channel Model ◽

Reading Speed ◽

Real Life ◽

Target Sentence ◽

Visual Noise ◽

Noisy Channel ◽

Qualitative Effect

Noise, as part of real-life communication flow, degrades the quality of linguistic input and affects language processing. According to predictions of the noisy-channel model, noisemakes comprehenders rely more on word-level semantics and good-enough processing instead of actual syntactic relations. However, empirical evidence of such qualitative effect of noise on sentence processing is still lacking. For the first time, we investigated the qualitative effect of both auditory (three-talker babble) and visual (short idioms appearing next to target sentence on the screen) noise on sentence reading within one study in two eye-trackingexperiments. In both of them, we used the same stimuli — unambiguous grammatical Russian sentences — and manipulated their semantic plausibility. Our findings suggest that although readers relied on good-enough processing in Russian, neither auditory nor visualnoise qualitatively increased reliance on semantics in sentence comprehension. The only effect of noise was found in reading speed: only without noise, semantically implausible sentences were read slower than semantically plausible ones, as measured by both early and late eye-movement measures. These results do not support the predictions of the noisy-channel model. With regard to quantitative effects, we found a detrimental effect ofauditory noise on overall comprehension accuracy, and an accelerating effect of visual noise on sentence processing without accuracy decrease.

Download Full-text