Learning Nonadjacent Dependencies: No Need for Algebraic-Like Computations.

Perruchet, Pierre; Tyler, Michael D.; Galland, Nadine; Peereman, Ronald

doi:10.1037/0096-3445.133.4.573

Cited by 73 publications

(118 citation statements)

References 46 publications

(100 reference statements)

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“…For instance, Pen˜a, Nespor, Bonatti, and Mehler (2002) presented what they construed as a demonstration that detection of nonadjacent dependencies, which is a prerequisite to dealing with a PSG grammar, needs rulebased language-specific mechanisms, and Fitch and Hauser (2004) claimed to have provided evidence that the mastery of a PSG distinguishes human from nonhuman primates. However, these conclusions were weakened by major theoretical and methodological drawbacks (see Perruchet, Tyler, Galland, & Peereman, 2004, for a reappraisal of Pen˜a et al, and Perruchet & Rey, in press, for a reappraisal of Fitch & Hauser). By and large, the early claims of Chomsky are no longer the focal point of recent debates.…”

Section: The Innatist Chomskyan Perspectivementioning

confidence: 94%

Statistical approaches to language acquisition and the self-organizing consciousness: a reversal of perspective

Perruchet

2005

Psychological Research

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Recent years have seen the upsurge of a new approach to language that moves away from the rule-based conventional framework. In this approach, mostly supported by the success of connectionist models, children learn language by exploiting the distributional properties of the input. It is argued in this paper that, in the same way as conforming to rules does not imply the existence of mental rules, conforming to statistical regularities does not imply that statistical computations are performed mentally. Sensitivity to statistical regularities can alternatively be conceived of as a by-product of the recurrent interplay between the properties of the current conscious content and the properties of the linguistic and extralinguistic environment. The validity of including the content of conscious experiences in an otherwise standard dynamical approach rooted in the notion of self-organization is discussed.

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Section: The Innatist Chomskyan Perspectivementioning

confidence: 94%

Statistical approaches to language acquisition and the self-organizing consciousness: a reversal of perspective

Perruchet

2005

Psychological Research

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“…Earlier experimental studies (e.g., Cleeremans, 1993;Santelmann & Jusczyk, 1998) showed that learning nonadjacent dependencies, which is a prerequisite for detecting a center-embedded structure, is possible only when the distance between the to-be-associated elements does not exceed a very small number of elements. Other studies (Gomez, 2002;Newport & Aslin, 2004;Onnis, Monaghan, Richmond, & Chater, in press;Perruchet, Tyler, Galland, & Peereman, 2004) suggest that learning nonadjacent dependencies occurs only in conditions in which there is some extraneous reason to associate the relevant elements (e.g., when the prosodic pattern makes the relations salient).…”

Section: Discussionmentioning

confidence: 99%

Does the mastery of center-embedded linguistic structures distinguish humans from nonhuman primates?

Perruchet

Rey

2005

Psychonomic Bulletin & Review

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Identifying the specific language abilities that separate humans from nonhuman primates has been the topic of innumerable speculations. In a recent Science article, Fitch and Hauser (2004; hereafter, F&H) argued that the hierarchy of grammars of increasing generative power described by Chomsky (e.g., 1957) provides the key for a response. At the lowest level of complexity are the finite state grammars (FSGs), which generate sequences by concatenating a set of elements (states) while following prespecified transitional probabilities. The extant literature, as F&H pointed out, indicates that nonhuman primates can master such grammars. However, according to Chomsky, human language use requires the mastery of the next level in the complexity hierarchy, termed the phrase structure grammar (PSG). "In addition to concatenating items like an FSG, a PSG can embed strings within other strings, thus creating complex hierarchical structures and long-distance dependencies" (F&H, p. 378). An instance of embedding in English is "the rat the cat ate stole the cheese," in which one relative clause ("the cat ate") is nested within the sentence ("the rat stole the cheese"). The aim of F&H's article was to show that although the abilities to master a PSG are available to all normal humans, they are not available to monkeys.In their experimental demonstration, F&H (2004) used a particular PSG, termed A n B n , where n ϭ {2,3}. This grammar generates center-embedded constructions, such as that represented in Figure 1 for n ϭ 3. The A and B elements were drawn within separate sets of eight CV syllables and were further distinguished by their acoustic characteristics. The A syllables were spoken by a female, and the B syllables by a male, so that the two classes of syllables differed by voice pitch, quality, and other particularities of the voice sources.Participants (undergraduate students, on the one hand, and cotton-top tamarins, on the other) first heard a set of sentences following the pattern AABB or AAABBB. In the subsequent test phase, they heard novel sentences, half following the same grammar (A n B n ) and half following an FSG (AB n ), which generated either ABAB or ABABAB sentences. The students were asked to state whether the pattern of each novel sound was the same as or different from the pattern heard during the familiarization phase. They scored 85% correct on this discrimination task. The performance of the tamarins was assessed through their visual orientation toward the loudspeaker, an increase in looking rate being taken as indicative that the sounds were perceived as different. Interestingly, the tamarins displayed an equivalent rate of looking to strings that violated the rules of the grammar and looking to strings that were consistent with those rules. Obviously, their failure to selectively look at the nonconsistent strings could be due to multiple causes, such as a perceptual inability to discriminate the acoustic properties of A and B syllables. In order to eliminate alternative interpretations, F&H (2004)...

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“…Several proponents of "general associationist mechanisms" (e.g., Perruchet et al, 2004;Seidenberg et al, 2002) have suggested that such mechanisms may account for Peña et al's (2002) and Endress and Bonatti's (2007) results. However, these proposals only stated that the mechanisms of the generalizations may be associationist but not what they actually may be.…”

Section: Four Puzzles Solvedmentioning

confidence: 99%

“…However, the mechanisms of the generalizations remained elusive despite substantial research (e.g., Balaguer, Toro, Rodriguez-Fornells, & Bachoud-Lévi, 2007;Mueller, Bahlmann, & Friederici, 2008;Pacton & Perruchet, 2008;Perruchet, Tyler, Galland, & Peereman, 2004;Seidenberg, MacDonald, & Saffran, 2002). A particularly important issue concerns the question of whether these results can be explained by a single, associationist mechanism, or whether one needs to posit different kinds of mechanisms for the generalizations and the statistical computations, respectively.…”

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confidence: 99%

Primitive computations in speech processing

Endress

Mehler

2009

Quarterly Journal of Experimental Psychology

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This is the accepted version of the paper.This version of the publication may differ from the final published version. Previous research suggests that artificial-language learners exposed to quasi-continuous speech can learn that the first and the last syllables of words have to belong to distinct classes (e.g., Endress & Bonatti, 2007;Peña, Bonatti, Nespor, & Mehler, 2002). The mechanisms of these generalizations, however, are debated. Here we show that participants learn such generalizations only when the crucial syllables are in edge positions (i.e., the first and the last), but not when they are in medial positions (i.e., the second and the fourth in pentasyllabic items). In contrast to the generalizations, participants readily perform statistical analyses also in word middles. In analogy to sequential memory, we suggest that participants extract the generalizations using a simple but specific mechanism that encodes the positions of syllables that occur in edges. Simultaneously, they use another mechanism to track the syllable distribution in the speech streams. In contrast to previous accounts, this model explains why the generalizations are faster than the statistical computations, require additional cues, and break down under different conditions, and why they can be performed at all. We also show that that similar edge-based mechanisms may explain many results in artificial-grammar learning and also various linguistic observations. Permanent repository link

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Learning Nonadjacent Dependencies: No Need for Algebraic-Like Computations.

Cited by 73 publications

References 46 publications

Statistical approaches to language acquisition and the self-organizing consciousness: a reversal of perspective

Statistical approaches to language acquisition and the self-organizing consciousness: a reversal of perspective

Does the mastery of center-embedded linguistic structures distinguish humans from nonhuman primates?

Primitive computations in speech processing

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