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1、Segmenting Nonsense,Sanders, Newport & Neville (2002),Ricardo Tabone LIN 7912,Background,Behavioural studies adults segment continuous speech using several segmentation cues Problem: these studies cannot distinguish between fast segmentation and slower linguistic processing Speech segmentation has b
2、een studied in different groups of speakers (e.g. young infants, bilingual adults, etc) through different tasks There is a need for an experimental task that can be employed with all groups: Recording ERPs!,Background (cont),In continuous speech, initial syllables elicit larger negativity (N100) tha
3、n medial syllables. (Sanders & Neville, in press) Initial and medial syllables were controlled for loudness, length and other acoustic characteristics. But,Research Question,Do N100 word-onset effects index speech segmentation rather than acoustic characteristics pertaining to word boundaries? In ot
4、her words, is speech segmentation affected by lexical processing of speech sounds?,Background (recap),In continuous speech, initial syllables elicit larger negativity (N100) than medial syllables. Initial and medial syllables were controlled for loudness, length and other acoustic characteristics. B
5、ut Interesting: Behavioural tests exposure to a continuous stream of nonsense words allows listeners to learn to distinguish between nonsense words and part-word items,Experimental Design,Pre-test Subjects listened to 36 pairs of 3-syllable Nonsense Words (NWs) and indicate which of the two items se
6、emed more familiar. Each pair consisted of one of the 6 NWs that would be used later and one part-word items composed of the last syllable of a NW + the first 2 syllables from another word First Test Subjects listened to a continuous stream of the 6 NWs (babupu, bupada, dutaba, patubi, pidabu, tutib
7、u), repeated randomly 200 times each The words were generated by text-to-speech synthesis and were sequenced without pauses: Babupubupadababupudutabapatubipidabututibu,Experimental Design,Pre-test Subjects listened to 36 pairs of 3-syllable Nonsense Words (NWs) and indicate which of the two items se
8、emed more familiar. Each pair consisted of one of the 6 NWs that would be used later and one part-word items composed of the last syllable of a NW + the first 2 syllables from another word First Test Subjects listened to a continuous stream of the 6 NWs (babupu, bupada, dutaba, patubi, pidabu, tutib
9、u), repeated randomly 200 times each The words were generated by text-to-speech synthesis and were sequenced without pauses: Babupubupadababupudutabapatubipidabututibu,Experimental Design (cont),ERPs were recorded during the first 14-minute exposure. Second Test Determined whether or not subjected h
10、ad learned to recognize words due to exposure alone Next, training Subjects listened to the 6 NWs, separated by 500ms, for 10 minutes, and separated by 100ms for an extra 10 minutes. Speakers were asked repeated the word and were presented with the text version on the screen. Third Test Assessed whi
11、ch words subjects learned Fouth Test ERPs were recorded during an extra 14-minute exposure to the same babupubupadababu. Firth Test Assessed which words subjects learned,Experimental Design (cont),ERPs were recorded during the first 14-minute exposure. Second Test Determined whether or not subjected
12、 had learned to recognize words due to exposure alone Next, training Subjects listened to the 6 NWs, separated by 500ms, for 10 minutes, and separated by 100ms for an extra 10 minutes. Speakers were asked repeated the word and were presented with the text version on the screen. Third Test Assessed w
13、hich words subjects learned Fouth Test ERPs were recorded during an extra 14-minute exposure to the same babupubupadababu. Firth Test Assessed which words subjects learned,Participants,18 participants Right-handed Monolingual English speakers,Results (Behavioural),Second Test Subjects performed at 5
14、0% exposure alone isnt enough. Third Test After training, participants performed at 79.5%. Bingo! Fifth Test Performance was measured again after another 14-minute exposure. Nothing changed (79.2%) No new words learned, no old words forgotten.,Results (Behavioural),High correlation between individua
15、l performance on post-training tests and the difference in N100 amplitude before and after training,ERPs Analysis,Divided the 18 participants into two groups: 9 High learners (M=55.1%) (M=90.7%) 9 Low learners (M=52.2%) (M=67.9%) High Learners showed a significant effect of training on N100 amplitud
16、e, specially on medial and midline electrodes,High Learners,ERPs Analysis,Divided the 18 participants into two groups: 9 Low learners (M=55.1%) (M=90.7%) 9 High learners (M=52.2%) (M=67.9%) High Learners showed a significant effect of training on N100 amplitude, specially on medial and midline electrodes Low Learners did not show a significant N100 effect,Low Learners,ERPs Analysis,Divided the 18 participants into two groups: 9 Low learners