Linguistic Complexity: Locality of Syntactic Dependencies

Overview

Journal Cognition

Publisher Elsevier

Specialty Psychology

Date 1998 Oct 17

PMID 9775516

Citations 328

Authors

E Gibson

Affiliations

Soon will be listed here.

Abstract

This paper proposes a new theory of the relationship between the sentence processing mechanism and the available computational resources. This theory--the Syntactic Prediction Locality Theory (SPLT)--has two components: an integration cost component and a component for the memory cost associated with keeping track of obligatory syntactic requirements. Memory cost is hypothesized to be quantified in terms of the number of syntactic categories that are necessary to complete the current input string as a grammatical sentence. Furthermore, in accordance with results from the working memory literature both memory cost and integration cost are hypothesized to be heavily influenced by locality (1) the longer a predicted category must be kept in memory before the prediction is satisfied, the greater is the cost for maintaining that prediction; and (2) the greater the distance between an incoming word and the most local head or dependent to which it attaches, the greater the integration cost. The SPLT is shown to explain a wide range of processing complexity phenomena not previously accounted for under a single theory, including (1) the lower complexity of subject-extracted relative clauses compared to object-extracted relative clauses, (2) numerous processing overload effects across languages, including the unacceptability of multiply center-embedded structures, (3) the lower complexity of cross-serial dependencies relative to center-embedded dependencies, (4) heaviness effects, such that sentences are easier to understand when larger phrases are placed later and (5) numerous ambiguity effects, such as those which have been argued to be evidence for the Active Filler Hypothesis.

Citing Articles

The effects of prediction representations on implicit learning: Evidence from sentence reading and perceptual identification.

Ren X, Xin X, Gao X, Ren G Heliyon. 2025; 10(21):e39256.

PMID: 39975463 PMC: 11838083. DOI: 10.1016/j.heliyon.2024.e39256.

Noisy-channel language comprehension in aphasia: A Bayesian mixture modeling approach.

Ryskin R, Gibson E, Kiran S Psychon Bull Rev. 2025; .

PMID: 39875783 DOI: 10.3758/s13423-025-02639-z.

The Effect of Free Weight Resistance Training on Cognitive Function Explored Through Eye Tracking: A Randomized Double-Blind Clinical Trial.

Mateluna-Nunez C, Ibanez-Orellana R, Campos-Rojas C, Santana-Covarrubias A, Fuentes Figueroa R, Martinez-Flores R Behav Sci (Basel). 2025; 15(1).

PMID: 39851881 PMC: 11762387. DOI: 10.3390/bs15010077.

Verbal working memory and syntactic comprehension segregate into the dorsal and ventral streams, respectively.

Matchin W, Mollasaraei Z, Bonilha L, Rorden C, Hickok G, den Ouden D Brain Commun. 2024; 6(6):fcae449.

PMID: 39713237 PMC: 11660927. DOI: 10.1093/braincomms/fcae449.

Karimi H, Boudewyn M, Vandenheever D, Diaz M Psychol Aging. 2024; 39(7):731-749.

PMID: 39495563 PMC: 11537493. DOI: 10.1037/pag0000857.