Is there a neighborhood frequency effect in English? Evidence from reading and lexical decision.

The present study explored the time course of neighborhood frequency effect at the early processing stages, examining whether orthographic neighbors with higher frequency exerted an influence on target processing especially at the phonological stage by using the event-related potential (ERP). Thirteen undergraduate students were recruited in this study, and they were required to covertly name Chinese characters with or without higher-frequency neighbors (HFNs); meanwhile, their brain activity was recorded. Results showed that the effect of neighborhood frequency was significant in frontocentral P2 amplitude, with a reduction for naming characters with HFNs compared to those without HFNs; while there was no effect in posterior N1 amplitude. The only neighborhood frequency effect in P2 component suggested a special role for the HFNs in phonological access of Chinese characters. The decrease in amplitude for naming with-HFN characters might be associated with the phonological interference of higher-frequency neighbors due to their different pronunciations from the target characters.

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Sentence context modulates the neighborhood frequency effect in Chinese reading: Evidence from eye movements.

Journal of Experimental Psychology Learning Memory and Cognition ◽

10.1037/xlm0001030 ◽

2021 ◽

Author(s):

Panpan Yao ◽

Timothy J. Slattery ◽

Xingshan Li

Keyword(s):

Eye Movements ◽

Sentence Context ◽

Frequency Effect ◽

Chinese Reading ◽

Neighborhood Frequency ◽

Neighborhood Frequency Effect

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On the role of competing word units in visual word recognition: The neighborhood frequency effect

Perception & Psychophysics ◽

10.3758/bf03210696 ◽

1989 ◽

Vol 45 (3) ◽

pp. 189-195 ◽

Cited By ~ 154

Author(s):

Jonathan Grainger ◽

J. Kevin O’regan ◽

Arthur M. Jacobs ◽

Juan Segui

Keyword(s):

Word Recognition ◽

Visual Word Recognition ◽

Visual Word ◽

Frequency Effect ◽

Neighborhood Frequency ◽

Neighborhood Frequency Effect

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The semantic neighborhood frequency effect

10.31979/etd.b3ky-qtb9 ◽

1995 ◽

Author(s):

Elvin F. S Chun

Keyword(s):

Frequency Effect ◽

Neighborhood Frequency ◽

Neighborhood Frequency Effect

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Reading monomorphemic and compound words in Chinese

The Mental Lexicon ◽

10.1075/ml.12.1.01cui ◽

2017 ◽

Vol 12 (1) ◽

pp. 1-20

Author(s):

Lei Cui ◽

Tuomo Häikiö ◽

Wenxin Zhang ◽

Yuwei Zheng ◽

Jukka Hyönä

Keyword(s):

Lexical Decision ◽

Word Type ◽

Morphological Processing ◽

Frequency Effect ◽

Word Frequency Effect ◽

Compound Words ◽

Recognition Time ◽

Speed Up ◽

Dual Route ◽

Dual Route Model

Abstract Two lexical decision experiments were conducted to study the recognition of two-character Chinese monomorphemic and compound words by adult native Chinese readers. In Experiment 1, the words appeared non-spaced, whereas in Experiment 2 a space was inserted between the two characters. An interaction between word type and spacing reflects a trend for spacing to slow down the recognition of monomorphemic words and speed up that of compound words. The word frequency effect was steeper for monomorphemic than compound words. The number of strokes in the first and the second character influenced the recognition time for compound words, but not for monomorphemic words. The results are interpreted in the light of the parallel dual route model of morphological processing. The holistic route is more prevalent in recognizing Chinese monomorphemic, while the morphological decomposition route is more prevalent in processing Chinese compound words.

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The locus of Katakana–English masked phonological priming effects

Bilingualism Language and Cognition ◽

10.1017/s1366728914000121 ◽

2014 ◽

Vol 18 (1) ◽

pp. 101-117 ◽

Cited By ~ 5

Author(s):

ERIKO ANDO ◽

KAZUNAGA MATSUKI ◽

HEATHER SHERIDAN ◽

DEBRA JARED

Keyword(s):

Lexical Decision ◽

Priming Effect ◽

Event Related Potential ◽

Frequency Effect ◽

Phonological Priming ◽

Priming Effects ◽

Phonological Representations ◽

Orthographic Representations ◽

Latency Distributions ◽

Japanese English

Japanese–English bilinguals completed a masked phonological priming study with Japanese Katakana primes and English targets. Event related potential (ERP) data were collected in addition to lexical decision responses. A cross-script phonological priming effect was observed in both measures, and the effect did not interact with frequency. In the ERP data, the phonological priming effect was evident before the frequency effect. These data, along with analyses of response latency distributions, provide evidence that the cross-script phonological priming effects were the consequence of the activation of sublexical phonological representations in a store shared by both Japanese and English. This activation fed back to sublexical and lexical orthographic representations, influencing lexical decision latencies. The implications for the Bilingual Interactive Activation (BIA+) model of word recognition are discussed.

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Demythologizing the word frequency effect

The Mental Lexicon ◽

10.1075/ml.5.3.10baa ◽

2010 ◽

Vol 5 (3) ◽

pp. 436-461 ◽

Cited By ~ 47

Author(s):

R. H. Baayen

Keyword(s):

Lexical Decision ◽

Word Frequency ◽

Computational Models ◽

Response Times ◽

Frequency Effect ◽

Word Frequency Effect ◽

Predictors Of Response ◽

Dual Route ◽

Dual Route Model

This study starts from the hypothesis, first advanced by McDonald and Shillcock (2001), that the word frequency effect for a large part reflects local syntactic co-occurrence. It is shown that indeed the word frequency effect in the sense of pure repeated exposure accounts for only a small proportion of the variance in lexical decision, and that local syntactic and morphological co-occurrence probabilities are what makes word frequency a powerful predictor for lexical decision latencies. A comparison of two computational models, the cascaded dual route model (Coltheart, Rastle, Perry, Langdon, & Ziegler, 2001) and the Naive Discriminative Reader (Baayen, Milin, Filipovic Durdjevic, Hendrix, & Marelli, 2010), indicates that only the latter model properly captures the quantitative weight of the latent dimensions of lexical variation as predictors of response times. Computational models that account for frequency of occurrence by some mechanism equivalent to a counter in the head therefore run the risk of overestimating the role of frequency as repetition, of overestimating the importance of words’ form properties, and of underestimating the importance of contextual learning during past experience in proficient reading.

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