Liversedge, SP et al. Universality of eye movements and reading: a trilingual survey. Cognition. 1471–20 (2016).
Rayner, K., Pollatsek, A., Ashby, J., and Clifton, C. Jr. psychology of reading. (PsychologyPress, 2012).
Rayner, K. Eye movements in reading and information processing: 20 years of research. Psychol. Bull. 124372–422 (1998).
Rayner, K. Eye Movements and Attention in Reading, Scene Perception, and Visual Search. QJ Exp. Psychol. 621457-1506 (2009).
Li, X., Bicknell, K., Liu, P., Wei, W. & Rayner, K. Reading Is Fundamentally Similar Across Disparate Writing Systems: A Systematic Characterization of How Words and Characters influence eye movements in Chinese reading. J. Exp. Psychol. Gen. 143895–913 (2014).
Li, X., Zang, C., Liversedge, SP, and Pollatsek, A. The role of words in Chinese reading. The Oxford Reading Handbook. 232 (2015).
Yu, L. & Reichle, ED Chinese versus English: insights into cognition while reading. Trends Cogn Sci. 21721–724 (2017).
Kang, SHK, Yap, MJ, Tse, C.-S. & Kurby, CA Semantic size doesn’t matter: “bigger” words aren’t recognized faster. QJ Exp. Psychol. 641041-1047 (2011).
Kliegl, R., Grabner, E., Rolfs, M. & Engbert, R. Effects of word length, frequency, and predictability on eye movements in reading. EUR. J. Cogni. Psychol. 16262–284 (2004).
Kliegl, R., Nuthmann, A. & Engbert, R. Mind tracking during reading: the influence of past, present, and future words on fixation durations. J. Exp. Psychol. Gen. 13512–35 (2006).
Luke, SG & Christianson, K. The Provo Corpus: A Large Corpus of Eye Tracking with Predictability Standards. Behavior Res. Methods. 50826–833 (2018).
Cop, U., Dirix, N., Drieghe, D. & Duyck, W. Presentation of GECO: An eye-tracking corpus for reading monolingual and bilingual sentences. Behavior Res. Methods. 49602–615 (2017).
Engbert, R., Nuthmann, A., Richter, EM & Kliegl, R. SWIFT: A dynamic model of saccade generation during reading. Psychol. Round. 112777–813 (2005).
Reichle, ED, Warren, T. & McConnell, K. Using the EZ Reader to Model the Effects of Higher Level Language Processing on Eye Movements During Reading. Psychone. Bull. Round. 161–21 (2009).
Cop, U., Dirix, N., Van Assche, E., Drieghe, D. & Duyck, W. Reading a book in one or two languages? A study of related facilitation eye movements in L1 and L2 reading. Billing. Lang. Conn. 20747–769 (2017).
Dirix, N. & Duyck, W. The effect of age of first and second language acquisition on first and second language book reading. J. Mem. Lang. 97103–120 (2017).
Dirix, N., Brysbaert, M. & Duyck, W. How correlated are word recognition measures? Effects of linguistic context and repeated presentations. Behavior Res. Methods. 512800–2816 (2019).
Pan, J., Yan, M., Richter, EM, Shu, H., and Kliegl, R. The Beijing Sentence Corpus: A Chinese Sentence Corpus with Eye Movement Data and Predictability Norms. Behavior Res. Methods. (2021).
Yu, L., Liu, Y. & Reichle, ED A corpus-based versus experimental examination of the effects of word and character frequency in Chinese reading: Theoretical implications for reading patterns. J. Exp. Psychol. Gen. 1501612-1641 (2021).
Li, X., Huang, L., Yao, P. & Hyönä, J. Universal and specific reading mechanisms in different writing systems. Nat. Rev. Psychol. 1133-144 (2022).
Qin, W. jiebar https://github.com/qinwf/jiebaR/ (2019).
Core team R. A: A language and environment for statistical computing. (Version 4.0) [Computer software]. Retrieved from https://cran.r-project.org. (R packages extracted from MRAN snapshot 2020-08-24).
Lexicon of common words in contemporary Chinese research team. Glossary of Common Words in Contemporary Chinese. Commercial press. (2008).
Gan, KW, Palmer, M. & Lua, KT A Statistically Emergent Approach to Language Processing: Application to Modeling Context Effects in Ambiguous Perception of Chinese Word Boundaries. Calculation. Linguist. 22531–553 (1996).
Google Scholar
Hsu, S.-H. & Huang, K.-C. Effects of word spacing on reading Chinese text from a video display terminal. Perceive. Word. Skills. 9081–92 (2000a).
Hsu, S.-H. & Huang, K.-C. Spacing between words in Chinese text layout. Perceive. Word. Skills. 91355–365 (2000b).
Li, M., Gao, J., Huang, C. and Li, J. Unsupervised training for resolving overlapping ambiguities in Chinese word segmentation [Paper presentation]. Proceedings of the Second SIGHAN Workshop on Chinese Language Processing, Sapporo, Japan. (2003, July 11-12).
Yen, M.-H., Radach, R., Tzeng, OJL & Tsai, J.-L. Use of statistical indices for word boundary in reading Chinese sentences. Lily. Arrangement. 25(5), 1007-1029 (2012).
Zhang, G., Li, X. and Lin, N. DPEEM: pre-processing and extraction of ‘pipeline’ data for eye movements https://github.com/usplos/DPEEM (2019).
Rayner, K., Kambe, G. & Duffy, SA The effect of clause conclusion on eye movements during reading. QJ Exp. Psychol. 531061-1080 (2000).
Zhang, G. et al. The database of eye movement measurements on words in Chinese reading. Open scientific framework https://doi.org/10.17605/OSF.IO/94WUE (2022).
Cai, Q. & Brysbaert, M. SUBTLEX-CH: Chinese word and character frequency based on movie subtitles. PLoS One. 5e10729 (2010).
Li, X. & Pollatsek, A. An integrated model of word processing and eye movement control when reading in Chinese. Psychol. Round. 1271139-1162 (2020).
Reichle, ED, Pollatsek, A., Fisher, DL, and Rayner, K. Towards a model of eye movement control in reading. Psychol. Round. 105125-157 (1998).
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