以事件相關電位探討中文語音辨識中的字形一致性效應

Publications-Theses

Article View/Open

pdf(1803)

Publication Export

Google Scholar^TM

題名	以事件相關電位探討中文語音辨識中的字形一致性效應 Event-Related Potentials studies for the Orthographic Consistency effects on Chinese spoken word recognition
作者	陳薇帆 Chen, Wei Fan
貢獻者	李佳穎 Lee, Chia Ying 陳薇帆 Chen, Wei Fan
關鍵詞	中文口語詞彙辨識音形對應性同音字密度字形一致性
日期	2011
上傳時間	30-Oct-2012 11:27:24 (UTC+8)
摘要	本研究以事件相關電位方法,探討中文字在進行聽覺詞彙辨識的作業中,分別受字形表徵的同音字密度多寡、以及字音-字形對應一致性的影響。首先進行中文字的字音-字形一致性語料庫的建立,量化中文字的音形對應一致性程度。透過明確的定義並操弄中文字的音形對應一致性,以及中文字同音字密度的特性,探討在進行中文字聽覺詞彙辨識歷程中,字形表徵屬性如何對語音辨識作業產生影響的認知歷程。實驗分為三種情境(1)同音密度低 (low HD)、(2)同音密度高/音形對應一致性高(high HD/high P-O)、 (3)同音密度高/音形對應一致性低(high HD/low P-O)。前兩項的比較為高同音字密度下的音形對應一致性效果,而後兩項的比較則為在高音形對應一致性下的同音字密度的效果。實驗一採語意判斷作業,研究結果顯示,在高同音字密度時,高音形對應一致性的字引發較大的 N400;而在高音形對應一致性時,同音字密度效果在 LPC 得到顯著的差異。反應中文字在聽覺詞彙判斷作業上,字形可自動被激活,進而影響語音的辨識。實驗二採押韻判斷作業,研究結果同樣發現高音形對應一致字引發較大的 N400,實但同音字密度效果性效果在判斷押韻作業上並未達顯著效果。另外,在高音形對應一致性情形下所得到的押韻效果最大,尤以同音字密度高且音形對應一致性高的情況下,押韻效果出現的時間較早。本研究結果支持雙向交互激發模型(BIAM)的假設:中文口語詞彙辨識的歷程中,也會自動激發字形訊息,而語音、字形、語意之間的對應一致性越好,口語詞彙辨識及其整體處理的效能也越高。
參考文獻	教育部(民 87)。87 年教育部口語資料庫。取自 http://www.edu.tw/files/site_content/M0001/86news/ch5-3.html?open 汪舒韻(民 98)。中低頻漢字在唸名與辨識作業中的順向與逆向一致性效果(碩士論文)。取自 http://ccur.lib.ccu.edu.tw/handle/309310000Q/9282 連育吟(民 99)。中文同音字密度對口語詞彙辨識歷程的影響(碩士論文)。取自 http://ndltd.ncl.edu.tw/cgi- bin/gs32/gsweb.cgi?o=dnclcdr&s=id=%22098NTPTC790001%22.&searchmode=basic Andrews, S. (1982). Phonological recoding: Is the regularity effect consistent? Memory & cognition, 10(6), 565–575. Barber, H., Vergara, M., & Carreiras, M. (2004). Syllable-frequency effects in visual word recognition: evidence from ERPs. Neuroreport, 15(3), 545-548 Bentin, S., Mouchetant-Rostaing, Y., Giard, M., Echallier, J., & Pernier, J. (1999). ERP manifestations of processing printed words at different psycholinguistic levels: time course and scalp distribution. Journal of Cognitive Neuroscience, 11(3), 235–260. MIT Press. Danielle van den Brink, Colin M. Brown, and Peter Hagoort (2001). Electrophysiological evidence for early contextual influences during spoken-word recognition: N200 versus N400 effects. Journal of Cognitive Neuroscience, 13(7), 967–985. doi:10.1162/089892901753165872 Chen, Y., Lee, J. R., Kuo, W.-J., Hung, D. L., & Cheng, S.-K. (2010). An ERP study of Chinese speakers` rhyme judgments to Chinese and English words. Neuroreport, 21(9), 636–640. doi:10.1097/WNR.0b013e32833a5d2c Coltheart, M., Besner, D., Jonasson, J. T., & Davelaar, E. (1979). Phonological encoding in the lexical decision task. The Quarterly Journal of Experimental Psychology, 31(3), 489–507. 61 Coltheart, M., Curtis, B., & Atkins, P. (1993). Models of reading aloud: Dual-route and parallel- distributed-processing approaches Psychological Review. Coltheart, M. (1994). Serial processing in reading aloud: Evidence for dual-route models of reading Journal of Experimental Psychology: .... Coltheart, V., Patterson, K., & Leahy, J. (1994). When a ROWS is a ROSE: Phonological effects in written word comprehension. The Quarterly journal of experimental psychology A, Human experimental psychology, 47(4), 917–955. Coltheart, M., Rastle, K., Perry, C., Ziegler, J. C., Langdon, R. (2001).DRC: A Dual Route Cascaded Model of Visual Word Recognition and ReadingAloud., Psychological Review, Vol. 108, No. I, 204- 256 Friedman, D. D., & Johnson, R. R. (2000). Event-related potential (ERP) studies of memory encoding and retrieval: a selective review. Microscopy Research and Technique, 51(1), 6–28. doi:10.1002/1097-0029(20001001)51:1<6::AID-JEMT2>3.0.CO;2-R Friedrich, M., Friederici, A.D.(2006).Early N400 development and later language acquisition., Psychophysiology, 43. Grainger, Jonathan.(1994) Phonology and orthography in visual word recognition: Effects of masked homophone primes , Journal of Memory and Language, 33:2 p.218 Grainger, J., & Ziegler, J. (2008). Cross-code consistency in a functional architecture for word recognition. Single-word reading: Behavioral and biological perspectives, 129–158. Glushko, R. (1979). The organization and activation of orthographic knowledge in reading aloud, Journal ofExperimental Psychology: Human Perception & Performance, 5, 674-691 Holcomb, P. J., & Neville, H. J. (1990). Auditory and visual semantic priming in lexical decision: A comparison using event-related brain potentials. LANGUAGE AND COGNITIVE PROCESSES, 5(4), 281–312. doi:10.1080/01690969008407065 62 Holcomb, P. J., & Neville, H. J. (1991). Natural speech processing: An analysis using event-related brain potentials. Holcomb, P. J. (1993). Semantic priming and stimulus degradation: implications for the role of the N400 in language processing. Psychophysiology, 30(1), 47-61. Hillyard, S. A., Hink, R. F., Schwent, V. L., & Picton, T. W. (1973). Electrical Signs of Selective Attention in the Human Brain. Science, 182(4108), 177-180. Hue, C.-W., (1992). Recognition processes in character naming. In Language processing in Chinese. Advances in psychology. Vol. 90, H.-C.E. Chen, Tzeng, Ovid J L., eds. Amsterdam, Netherlands: North-Holland. xii, 394, pp. 93-107. Jacquier, C., Rouibah, A., & Hoen, M. (2005). ERP Evidence for an Interaction between Phonological and Semantic Processes in Masked Priming Tasks. Proceedings of the XXVIIth annual meeting of the cognitive science society (CogSci 2005), 1030–1035. Kutas, M. and Hillyard, S. A. (1980). Reading senseless sentences: brain potentials reflect semantic incongruity. Science, 207, 203-208. Kutas, M. and Hillyard, S. A. An electrophysiological probe of incidental semantic association, Journal of Cognitive Neuroscience, 1989, 1(1): 38-49. Lee, C.Y., Tsai, J.L., Kuo, W.J., Yeh, T.C., Wu, Y.T., Ho, L.T., Hung, D.L., Tzeng, O.J.&Hsieh, J.C., (2004). Neuronal correlates of consistency and frequency effects on Chinese character naming: an event-related fMRI study. NeuroImage. 23, 1235-45. Lee, C.Y., Tsai, J.L., Su, E.C.I., Tzeng, O.J.L.&Hung, D.L., (2005). Consistency, Regularity, and Frequency Effects in Naming Chinese Characters. Language and Linguistics. 6, 75-107. 63 Lee, C.Y., Tsai, J.L., Huang, H.W., Hung, D.L.&Tzeng, O.J.L., (2006). The temporal signatures of semantic and phonological activations for Chinese sublexical processing: An event-related potential study. Brain Research. 1121, 150-159. Lee, C., Tsai, J., Chan, W., Hsu, C., & Hung, D. (2007). Temporal dynamics of the consistency effect in reading Chinese: an event-related potentials study. Neuroreport. Lee, C., Huang, H., Kuo, W., & Tsai, J. (2010). Cognitive and neural basis of the consistency and lexicality effects in reading Chinese. Journal of Neurolinguistics. Liu, Y., Perfetti, C. A., & Hart, L. (2003). ERP evidence for the time course of graphic, phonological, and semantic information in Chinese meaning and pronunciation decisions. Journal of Experimental Psychology: Learning, Memory, and Cognition, 29(6), 1231-1247. Nagi, K. (2008). The effect of feedback consistency and feedforward consistency (number of homophones and consistency) on reading and writing of Chinese in school-aged children, 84. Paller, K. A., Kutas, M., & McIsaac, H. K. (1995). Monitoring conscious recollection via the electrical activity of the brain. Psychological science : a journal of the American Psychological Society / APS, 6(2), 107. Pattamadilok, C., Perre, L., Dufau, S., Ziegler, J.C. (2009). On-line orthographic influences on spoken language in a semantic task. J Cogn Neurosci. 21, 169-79. Pattamadilok, C., Perre, L., & Ziegler, J. C. (2011). Beyond rhyme or reason: ERPs reveal task-specific activation of orthography on spoken language. BRAIN AND LANGUAGE, 116(3), 116–124. doi:10.1016/j.bandl.2010.12.002 Perre, L., & Ziegler, J. C. (2008). On-line activation of orthography in spoken word recognition. Brain Research, 1188, 132–138. doi:10.1016/j.brainres.2007.10.084 Perre, L., Pattamadilok, C., Montant, M., Ziegler, J.C., 2009b. Orthographic effects in spoken language: on-line activation or phonological restructuring? Brain Research. 1275, 73-80. 64 Pattamadilok, C., Perre, L., & Ziegler, J. C. (2011). Beyond rhyme or reason: ERPs reveal task-specific activation of orthography on spoken language. BRAIN AND LANGUAGE, 116(3), 116–124. doi:10.1016/j.bandl.2010.12.002 Rugg MD. (1984). Event-related potentials in phonological matching tasks. Brain Lang, 23, 225–240. Rugg, M. D., Mark, R. E., Walla, P., Schloerscheidt, A. M., Birch, C. S., & Allan, K. (1998). Dissociation of the neural correlates of implicit and explicit memory. Nature, 392(6676), 595–598. doi:10.1038/33396 Seidenberg, M. S. (1985). The time course of phonological code activation in two writing systems. Cognition, 19(1), 1–30. Seidenberg, M. (1989). A distributed, developmental model of word recognition and naming Psychological Review, 97. Seidenberg, M. S., & McClelland, J. L. (1989). A Distributed, Developmental Model of Word Recognition and Naming: Defense Technical Information Center. Smith, M. E., & Guster, K. (1993). Decomposition of recognition memory event-related potentials yields target, repetition, and retrieval effects. Electroencephalography and clinical neurophysiology, 86(5), 335–343. Van Orden, G. C., Johnston, J. C., & Hale, B. L. (1988). Word identification in reading proceeds from spelling to sound to meaning. Journal of Experimental Psychology: Learning, Memory, and Cognition, 14(3), 371–386. Van Orden, G. C. (1987). A ROWS is a ROSE: spelling, sound, and reading. Memory & cognition, 15(3), 181–198. Ventura, P., Morais, J., Pattamadilok, C., Kolinsky, R., 2004. The locus of the orthographic consistency effect in auditory word recognition. Lang. Cogn. Processes 19, 57–95. 65 Van Petten, C., Coulson, S., Rubin, S., Plante, E., & Parks, M. (1999). Time course of word identification and semantic integration in spoken language Journal of Experimental Psychology: Learning, Memory, and Cognition, 25(2), 394–417. Vitevitch, M. S., & Luce, P. A. (1999). Probabilistic Phonotactics and Neighborhood Activation in Spoken Word Recognition. Journal of Memory and Language, 40(3), 374–408. doi:10.1006/jmla.1998.2618 Wang, W., Li, X., Ning, N., & Zhang, J. X. (2012). The nature of the homophone density effect: an ERP study with Chinese spoken monosyllable homophones. Neuroscience letters, 516(1), 67–71. doi:10.1016/j.neulet.2012.03.059 Yoncheva, Y. N., Zevin, J. D., Maurer, U., & McCandliss, B. D. (2010). Auditory selective attention to speech modulates activity in the visual word form area Cerebral Cortex, 20(3), 622–632. doi:10.1093/cercor/bhp129 Ziegler, J. C, Muneaux, M. & Grainger, J . (2003). Neighborhood effects in auditory word recognition: Phonological competition and orthographic facilitation. Journal of Memory & Language, 48, 779-793. Ziegler, J. C., & Ferrand, L. (1998). Orthography shapes the perception of speech: The consistency effect in auditory recognition. Psychonomic Bulletin & Review, 5, 683–689. Ziegler, J. C., Ferrand, L., & Montant, M. (2004). Visual phonology: The effects of orthographic consistency on different auditory word recognition tasks. Memory & Cognition, 32, 732–741. Ziegler, J. C., & Muneaux, M. (2007). Orthographic facilitation and phonological inhibition in spoken word recognition: A developmental study. Psychonomic Bulletin & Review, 14, 75–80. Ziegler, J. C., Muneaux, M., & Grainger, J. (2003). Neighborhood effect in auditory word recognition: Phonological competition and orthographic facilitation. Journal of Memory and Language, 48, 779– 793.
描述	碩士國立政治大學心理學研究所 98752023 100
資料來源	http://thesis.lib.nccu.edu.tw/record/#G0098752023
資料類型	thesis

dc.contributor.advisor	李佳穎	zh_TW
dc.contributor.advisor	Lee, Chia Ying	en_US
dc.contributor.author (Authors)	陳薇帆	zh_TW
dc.contributor.author (Authors)	Chen, Wei Fan	en_US
dc.creator (作者)	陳薇帆	zh_TW
dc.creator (作者)	Chen, Wei Fan	en_US
dc.date (日期)	2011	en_US
dc.date.accessioned	30-Oct-2012 11:27:24 (UTC+8)	-
dc.date.available	30-Oct-2012 11:27:24 (UTC+8)	-
dc.date.issued (上傳時間)	30-Oct-2012 11:27:24 (UTC+8)	-
dc.identifier (Other Identifiers)	G0098752023	en_US
dc.identifier.uri (URI)	http://nccur.lib.nccu.edu.tw/handle/140.119/54642	-
dc.description (描述)	碩士	zh_TW
dc.description (描述)	國立政治大學	zh_TW
dc.description (描述)	心理學研究所	zh_TW
dc.description (描述)	98752023	zh_TW
dc.description (描述)	100	zh_TW
dc.description.abstract (摘要)	本研究以事件相關電位方法,探討中文字在進行聽覺詞彙辨識的作業中,分別受字形表徵的同音字密度多寡、以及字音-字形對應一致性的影響。首先進行中文字的字音-字形一致性語料庫的建立,量化中文字的音形對應一致性程度。透過明確的定義並操弄中文字的音形對應一致性,以及中文字同音字密度的特性,探討在進行中文字聽覺詞彙辨識歷程中,字形表徵屬性如何對語音辨識作業產生影響的認知歷程。實驗分為三種情境(1)同音密度低 (low HD)、(2)同音密度高/音形對應一致性高(high HD/high P-O)、 (3)同音密度高/音形對應一致性低(high HD/low P-O)。前兩項的比較為高同音字密度下的音形對應一致性效果,而後兩項的比較則為在高音形對應一致性下的同音字密度的效果。實驗一採語意判斷作業,研究結果顯示,在高同音字密度時,高音形對應一致性的字引發較大的 N400;而在高音形對應一致性時,同音字密度效果在 LPC 得到顯著的差異。反應中文字在聽覺詞彙判斷作業上,字形可自動被激活,進而影響語音的辨識。實驗二採押韻判斷作業,研究結果同樣發現高音形對應一致字引發較大的 N400,實但同音字密度效果性效果在判斷押韻作業上並未達顯著效果。另外,在高音形對應一致性情形下所得到的押韻效果最大,尤以同音字密度高且音形對應一致性高的情況下,押韻效果出現的時間較早。本研究結果支持雙向交互激發模型(BIAM)的假設:中文口語詞彙辨識的歷程中,也會自動激發字形訊息,而語音、字形、語意之間的對應一致性越好,口語詞彙辨識及其整體處理的效能也越高。	zh_TW
dc.description.tableofcontents	前言............................................................................................................ 5 字詞辨識歷程-雙路徑模型.............................................................................. 6 平行分佈處理模型......................................................................................... 8 雙向交互激發模型 Bimodal interaction activation model(BIAM) ......................9 字形到字音的對應一致性(O-P 一致性)..............................................................10 字音到字形的對應一致性(P-O 一致性)..............................................................11 事件相關電位的介紹與優勢.............................................................................13 事件相關電位................................................................................................13 與詞彙辨識相關的事件相關電位-腦波成分........................................................14 N320..........................................................................................................14 N400..........................................................................................................14 LPC ............................................................................................................15 字音-字形對應一致性研究-事件相關電位的回顧 ..............................................16 中文文字系統的特性......................................................................................23 中文字字形到字音的對應一致性(O-P 一致性)...................................................23 中文字字音到對應字形的個數(同音字密度)........................................................25 中文字字音到對應字形的一致性(P-O 一致性)....................................................26 建立中文字音-字形對應一致性資料庫 .............................................................28 實驗一:字形一致性效果事件相關電位研究-語意判斷作業....................................32 研究目的......................................................................................................32 受試者.........................................................................................................32 實驗設計與刺激材料......................................................................................32 實驗程序......................................................................................................34 研究預期......................................................................................................35 測量工具......................................................................................................36 實驗結果......................................................................................................36 事件相關電位資料的前處理.............................................................................36 事件相關電位-統計分析..................................................................................37 統計分析結果................................................................................................39 實驗結果討論................................................................................................42 N400...........................................................................................................42 LPC .............................................................................................................43 實驗二:字形一致性效果事件相關電位研究-聲韻判斷作業....................................44 研究目的.......................................................................................................44 受試者..........................................................................................................44 實驗設計與材料..............................................................................................44 實驗程序......................................................................................................45 研究預期.......................................................................................................46 測量工具.......................................................................................................47 實驗結果.......................................................................................................47 行為結果.......................................................................................................47 事件相關電位資料的前處理.............................................................................48 事件相關電位-統計分析.................................................................................48 事件相關電位-促發項(prime)統計分析.............................................................49 事件相關電位-促發項統計分析結果..................................................................51 事件相關電位-目標項(target)統計分析-音形對應性效果與 Rhyming effect 分析...54 事件相關電位-目標項音形對應性與 Rhyming effect 分析結果 ...........................54 實驗結果討論................................................................................................55 N320...........................................................................................................55 N400...........................................................................................................56 ~700-900...................................................................................................56 押韻效果......................................................................................................56 綜合討論......................................................................................................57 未來展望......................................................................................................61 參考文獻......................................................................................................62	zh_TW
dc.language.iso	en_US	-
dc.source.uri (資料來源)	http://thesis.lib.nccu.edu.tw/record/#G0098752023	en_US
dc.subject (關鍵詞)	中文口語詞彙辨識	zh_TW
dc.subject (關鍵詞)	音形對應性	zh_TW
dc.subject (關鍵詞)	同音字密度	zh_TW
dc.subject (關鍵詞)	字形一致性	zh_TW
dc.title (題名)	以事件相關電位探討中文語音辨識中的字形一致性效應	zh_TW
dc.title (題名)	Event-Related Potentials studies for the Orthographic Consistency effects on Chinese spoken word recognition	en_US
dc.type (資料類型)	thesis	en
dc.relation.reference (參考文獻)	教育部(民 87)。87 年教育部口語資料庫。取自 http://www.edu.tw/files/site_content/M0001/86news/ch5-3.html?open 汪舒韻(民 98)。中低頻漢字在唸名與辨識作業中的順向與逆向一致性效果(碩士論文)。取自 http://ccur.lib.ccu.edu.tw/handle/309310000Q/9282 連育吟(民 99)。中文同音字密度對口語詞彙辨識歷程的影響(碩士論文)。取自 http://ndltd.ncl.edu.tw/cgi- bin/gs32/gsweb.cgi?o=dnclcdr&s=id=%22098NTPTC790001%22.&searchmode=basic Andrews, S. (1982). Phonological recoding: Is the regularity effect consistent? Memory & cognition, 10(6), 565–575. Barber, H., Vergara, M., & Carreiras, M. (2004). Syllable-frequency effects in visual word recognition: evidence from ERPs. Neuroreport, 15(3), 545-548 Bentin, S., Mouchetant-Rostaing, Y., Giard, M., Echallier, J., & Pernier, J. (1999). ERP manifestations of processing printed words at different psycholinguistic levels: time course and scalp distribution. Journal of Cognitive Neuroscience, 11(3), 235–260. MIT Press. Danielle van den Brink, Colin M. Brown, and Peter Hagoort (2001). Electrophysiological evidence for early contextual influences during spoken-word recognition: N200 versus N400 effects. Journal of Cognitive Neuroscience, 13(7), 967–985. doi:10.1162/089892901753165872 Chen, Y., Lee, J. R., Kuo, W.-J., Hung, D. L., & Cheng, S.-K. (2010). An ERP study of Chinese speakers` rhyme judgments to Chinese and English words. Neuroreport, 21(9), 636–640. doi:10.1097/WNR.0b013e32833a5d2c Coltheart, M., Besner, D., Jonasson, J. T., & Davelaar, E. (1979). Phonological encoding in the lexical decision task. The Quarterly Journal of Experimental Psychology, 31(3), 489–507. 61 Coltheart, M., Curtis, B., & Atkins, P. (1993). Models of reading aloud: Dual-route and parallel- distributed-processing approaches Psychological Review. Coltheart, M. (1994). Serial processing in reading aloud: Evidence for dual-route models of reading Journal of Experimental Psychology: .... Coltheart, V., Patterson, K., & Leahy, J. (1994). When a ROWS is a ROSE: Phonological effects in written word comprehension. The Quarterly journal of experimental psychology A, Human experimental psychology, 47(4), 917–955. Coltheart, M., Rastle, K., Perry, C., Ziegler, J. C., Langdon, R. (2001).DRC: A Dual Route Cascaded Model of Visual Word Recognition and ReadingAloud., Psychological Review, Vol. 108, No. I, 204- 256 Friedman, D. D., & Johnson, R. R. (2000). Event-related potential (ERP) studies of memory encoding and retrieval: a selective review. Microscopy Research and Technique, 51(1), 6–28. doi:10.1002/1097-0029(20001001)51:1<6::AID-JEMT2>3.0.CO;2-R Friedrich, M., Friederici, A.D.(2006).Early N400 development and later language acquisition., Psychophysiology, 43. Grainger, Jonathan.(1994) Phonology and orthography in visual word recognition: Effects of masked homophone primes , Journal of Memory and Language, 33:2 p.218 Grainger, J., & Ziegler, J. (2008). Cross-code consistency in a functional architecture for word recognition. Single-word reading: Behavioral and biological perspectives, 129–158. Glushko, R. (1979). The organization and activation of orthographic knowledge in reading aloud, Journal ofExperimental Psychology: Human Perception & Performance, 5, 674-691 Holcomb, P. J., & Neville, H. J. (1990). Auditory and visual semantic priming in lexical decision: A comparison using event-related brain potentials. LANGUAGE AND COGNITIVE PROCESSES, 5(4), 281–312. doi:10.1080/01690969008407065 62 Holcomb, P. J., & Neville, H. J. (1991). Natural speech processing: An analysis using event-related brain potentials. Holcomb, P. J. (1993). Semantic priming and stimulus degradation: implications for the role of the N400 in language processing. Psychophysiology, 30(1), 47-61. Hillyard, S. A., Hink, R. F., Schwent, V. L., & Picton, T. W. (1973). Electrical Signs of Selective Attention in the Human Brain. Science, 182(4108), 177-180. Hue, C.-W., (1992). Recognition processes in character naming. In Language processing in Chinese. Advances in psychology. Vol. 90, H.-C.E. Chen, Tzeng, Ovid J L., eds. Amsterdam, Netherlands: North-Holland. xii, 394, pp. 93-107. Jacquier, C., Rouibah, A., & Hoen, M. (2005). ERP Evidence for an Interaction between Phonological and Semantic Processes in Masked Priming Tasks. Proceedings of the XXVIIth annual meeting of the cognitive science society (CogSci 2005), 1030–1035. Kutas, M. and Hillyard, S. A. (1980). Reading senseless sentences: brain potentials reflect semantic incongruity. Science, 207, 203-208. Kutas, M. and Hillyard, S. A. An electrophysiological probe of incidental semantic association, Journal of Cognitive Neuroscience, 1989, 1(1): 38-49. Lee, C.Y., Tsai, J.L., Kuo, W.J., Yeh, T.C., Wu, Y.T., Ho, L.T., Hung, D.L., Tzeng, O.J.&Hsieh, J.C., (2004). Neuronal correlates of consistency and frequency effects on Chinese character naming: an event-related fMRI study. NeuroImage. 23, 1235-45. Lee, C.Y., Tsai, J.L., Su, E.C.I., Tzeng, O.J.L.&Hung, D.L., (2005). Consistency, Regularity, and Frequency Effects in Naming Chinese Characters. Language and Linguistics. 6, 75-107. 63 Lee, C.Y., Tsai, J.L., Huang, H.W., Hung, D.L.&Tzeng, O.J.L., (2006). The temporal signatures of semantic and phonological activations for Chinese sublexical processing: An event-related potential study. Brain Research. 1121, 150-159. Lee, C., Tsai, J., Chan, W., Hsu, C., & Hung, D. (2007). Temporal dynamics of the consistency effect in reading Chinese: an event-related potentials study. Neuroreport. Lee, C., Huang, H., Kuo, W., & Tsai, J. (2010). Cognitive and neural basis of the consistency and lexicality effects in reading Chinese. Journal of Neurolinguistics. Liu, Y., Perfetti, C. A., & Hart, L. (2003). ERP evidence for the time course of graphic, phonological, and semantic information in Chinese meaning and pronunciation decisions. Journal of Experimental Psychology: Learning, Memory, and Cognition, 29(6), 1231-1247. Nagi, K. (2008). The effect of feedback consistency and feedforward consistency (number of homophones and consistency) on reading and writing of Chinese in school-aged children, 84. Paller, K. A., Kutas, M., & McIsaac, H. K. (1995). Monitoring conscious recollection via the electrical activity of the brain. Psychological science : a journal of the American Psychological Society / APS, 6(2), 107. Pattamadilok, C., Perre, L., Dufau, S., Ziegler, J.C. (2009). On-line orthographic influences on spoken language in a semantic task. J Cogn Neurosci. 21, 169-79. Pattamadilok, C., Perre, L., & Ziegler, J. C. (2011). Beyond rhyme or reason: ERPs reveal task-specific activation of orthography on spoken language. BRAIN AND LANGUAGE, 116(3), 116–124. doi:10.1016/j.bandl.2010.12.002 Perre, L., & Ziegler, J. C. (2008). On-line activation of orthography in spoken word recognition. Brain Research, 1188, 132–138. doi:10.1016/j.brainres.2007.10.084 Perre, L., Pattamadilok, C., Montant, M., Ziegler, J.C., 2009b. Orthographic effects in spoken language: on-line activation or phonological restructuring? Brain Research. 1275, 73-80. 64 Pattamadilok, C., Perre, L., & Ziegler, J. C. (2011). Beyond rhyme or reason: ERPs reveal task-specific activation of orthography on spoken language. BRAIN AND LANGUAGE, 116(3), 116–124. doi:10.1016/j.bandl.2010.12.002 Rugg MD. (1984). Event-related potentials in phonological matching tasks. Brain Lang, 23, 225–240. Rugg, M. D., Mark, R. E., Walla, P., Schloerscheidt, A. M., Birch, C. S., & Allan, K. (1998). Dissociation of the neural correlates of implicit and explicit memory. Nature, 392(6676), 595–598. doi:10.1038/33396 Seidenberg, M. S. (1985). The time course of phonological code activation in two writing systems. Cognition, 19(1), 1–30. Seidenberg, M. (1989). A distributed, developmental model of word recognition and naming Psychological Review, 97. Seidenberg, M. S., & McClelland, J. L. (1989). A Distributed, Developmental Model of Word Recognition and Naming: Defense Technical Information Center. Smith, M. E., & Guster, K. (1993). Decomposition of recognition memory event-related potentials yields target, repetition, and retrieval effects. Electroencephalography and clinical neurophysiology, 86(5), 335–343. Van Orden, G. C., Johnston, J. C., & Hale, B. L. (1988). Word identification in reading proceeds from spelling to sound to meaning. Journal of Experimental Psychology: Learning, Memory, and Cognition, 14(3), 371–386. Van Orden, G. C. (1987). A ROWS is a ROSE: spelling, sound, and reading. Memory & cognition, 15(3), 181–198. Ventura, P., Morais, J., Pattamadilok, C., Kolinsky, R., 2004. The locus of the orthographic consistency effect in auditory word recognition. Lang. Cogn. Processes 19, 57–95. 65 Van Petten, C., Coulson, S., Rubin, S., Plante, E., & Parks, M. (1999). Time course of word identification and semantic integration in spoken language Journal of Experimental Psychology: Learning, Memory, and Cognition, 25(2), 394–417. Vitevitch, M. S., & Luce, P. A. (1999). Probabilistic Phonotactics and Neighborhood Activation in Spoken Word Recognition. Journal of Memory and Language, 40(3), 374–408. doi:10.1006/jmla.1998.2618 Wang, W., Li, X., Ning, N., & Zhang, J. X. (2012). The nature of the homophone density effect: an ERP study with Chinese spoken monosyllable homophones. Neuroscience letters, 516(1), 67–71. doi:10.1016/j.neulet.2012.03.059 Yoncheva, Y. N., Zevin, J. D., Maurer, U., & McCandliss, B. D. (2010). Auditory selective attention to speech modulates activity in the visual word form area Cerebral Cortex, 20(3), 622–632. doi:10.1093/cercor/bhp129 Ziegler, J. C, Muneaux, M. & Grainger, J . (2003). Neighborhood effects in auditory word recognition: Phonological competition and orthographic facilitation. Journal of Memory & Language, 48, 779-793. Ziegler, J. C., & Ferrand, L. (1998). Orthography shapes the perception of speech: The consistency effect in auditory recognition. Psychonomic Bulletin & Review, 5, 683–689. Ziegler, J. C., Ferrand, L., & Montant, M. (2004). Visual phonology: The effects of orthographic consistency on different auditory word recognition tasks. Memory & Cognition, 32, 732–741. Ziegler, J. C., & Muneaux, M. (2007). Orthographic facilitation and phonological inhibition in spoken word recognition: A developmental study. Psychonomic Bulletin & Review, 14, 75–80. Ziegler, J. C., Muneaux, M., & Grainger, J. (2003). Neighborhood effect in auditory word recognition: Phonological competition and orthographic facilitation. Journal of Memory and Language, 48, 779– 793.	zh_TW

Publications-Theses

Article View/Open

Publication Export

Google ScholarTM

NCCU Library

Citation Infomation

Related Publications in TAIR

Google Scholar^TM