PSY 369: Psycholinguistics

PSY 369: Psycholinguistics Language Production: Theories & Models

Announcements • Homework 6 (Due April 24) • Try to be vigilant for four or five days in noting speech errors made by yourself and others. Write each slip down (carry a small notebook and pencil with you). Then, when you have accumulated a reasonably size sample (aim for 20 to 30, but don't panic if you don't get that many), try to classify each slip in terms of • the unit(s) involved • the type of error • Remember that each error may be interpreted in different ways. For some of them, see if you can come up with more than one possibility.

From thought to speech • General Model of Language Production • What do speech errors suggest? • Fromkin (1971) • Garrett (1975) • (And experiments too) Jane threw the ball to Bill

Syntactic level Morphemic level Phonemic level Articulation From thought to speech Message level • General Model of Language Production • Ordered sequence of independent planning units • Four levels of processing are typically proposed • Typically they are ordered this way (but there is debate about the independence of the different levels) • Note the similarity to models of comprehension

Syntactic level Morphemic level Phonemic level Articulation From thought to speech Message level • Propositions to be communicated • Selection and organization of lexical items • Morphologically complex words are constructed • Sound structure of each word is built

From thought to speech Message level • Propositions to be communicated • Not a lot known about this step • Typically thought to be shared with comprehension processes, semantic networks, situational models, etc. Syntactic level Morphemic level Phonemic level Articulation

From thought to speech Message level • Grammatical class constraint • Most substitutions, exchanges, and blends involve words of the same grammatical class • Slots and frames • A syntactic framework is constructed, and then lexical items are inserted into the slots Syntactic level Morphemic level Phonemic level Articulation

From thought to speech Rachel Emily Ross It was such a happy moment when Ross kissed Rachel…

From thought to speech Rachel Emily Ross … Oops! I mean “kissed Emily.”

SYNTACTIC FRAME S NP VP N V(past) N From thought to speech • LEXICON • ROSS • KISS • EMILY • RACHEL Spreading activation

SYNTACTIC FRAME S NP VP N V(past) N From thought to speech • Grammatical class constraint: • LEXICON • ROSS • KISS • EMILY • RACHEL If the word isn’t the right grammatical class, it won’t “fit” into the slot.

From thought to speech Message level • Grammatical class constraint • Most substitutions, exchanges, and blends involve words of the same grammatical class • Slots and frames • A syntactic framework is constructed, and then lexical items are inserted into the slots • Other evidence • Syntactic priming Syntactic level Morphemic level Phonemic level Articulation

Syntactic priming • Bock (1986): syntactic persistance tested by picture naming Hear and repeat a sentence Describe the picture

Syntactic priming • a: The ghost sold the werewolf a flower • Bock (1986): syntactic persistance tested by picture naming • b: The ghost sold a flower to the werewolf • a: The girl gave the teacher the flowers • b: The girl gave the flowers to the teacher

Syntactic priming • In real life, syntactic priming seems to occur as well • Branigan, Pickering, & Cleland (2000): • Speakers tend to reuse syntactic constructions of other speakers • Potter & Lombardi (1998): • Speakers tend to reuse syntactic constructions of just read materials

From thought to speech Message level • Stranding errors I liked he would hope you I hoped he would like you • The inflection stayed in the same location, the stems moved • Inflections tend to stay in their proper place • Do not typically see errors like The beeing are buzzes The bees are buzzing Syntactic level Morphemic level Phonemic level Articulation

From thought to speech Message level • Stranding errors • Closed class items very rare in exchanges or substitutions • Two possibilities • Part of syntactic frame • High frequency, so lots of practice, easily selected, etc. Syntactic level Morphemic level Phonemic level Articulation

From thought to speech Message level • Consonant vowel regularity • Consonants slip with other consonants, vowels with vowels, but rarely do consonants slip with vowels • The implication is that vowels and consonants represent different kinds of units in phonological planning Syntactic level Morphemic level Phonemic level Articulation

From thought to speech Message level • Consonant vowel regularity • Frame and slots in syllables • Similar to the slots and frames we discussed with syntax Syntactic level Morphemic level Phonemic level Articulation

From thought to speech PHONOLOGICAL FRAME Word • LEXICON • /d/, C • /g/, C • , V Syllable Onset Rhyme C V C

From thought to speech Message level • Consonant vowel regularity • Frame and slots in syllables • Evidence for the separation of meaning and sound Syntactic level • Tip of the tongue • Picture-word interference Morphemic level Phonemic level Articulation

Tip-of-the-tongue An instrument used by navigators for measuring the angular distance of the sun, a star, etc. from the horizon

Tip-of-the-tongue • TOT • Meaning access • No (little) phonological access • What about syntax? Uhh… It is a.. You know.. A.. Arggg. I can almost see it, it has two Syllables, I think it starts with A …..

Tip-of-the-tongue • “The rhythm of the lost word may be there without the sound to clothe it; or the evanescent sense of something which is the initial vowel or consonant may mock us fitfully, without growing more distinct.” (James, 1890, p. 251) Videos 1 | 2

Tip-of-the-tongue • Low-frequency words (e.g., apse, nepotism, sampan), prompted by brief definitions. • On 8.5% of trials, tip-of-the-tongue state ensued: • Had to guess: • word's first or last letters • the number of syllables it contained • which syllable was stressed • Brown & McNeill (1966)

Tip-of-the-tongue • Total of 360 TOT states: • 233 ="positive TOTs" (subject was thinking of target word, and produced scorable data • 127 = "negative TOTs" (subject was thinking of other word, but could not recall it) • 224 similar-sound TOTs (e.g., Saipan for sampan) • 48% had the same number of syllables as the target • 95 similar-meaning TOTs (e.g., houseboat for sampan). • 20% had same number of syllables as target. • Brown & McNeill (1966)

Tip-of-the-tongue • Similar words come to mind about half the time • but how much is just guessing? • First letter: correct 50-71% of time (vs. 10% by chance) • First sound: 36% of time (vs. 6% by chance)

Tip-of-the-tongue • Results suggest a basic split between semantics/syntax and phonology: • People can access meaning and grammar but not pronunciation

Tip-of-the-tongue • Semantics • Syntax • grammatical category (“part of speech”) • e.g. noun, verb, adjective • Gender • e.g. le chien, la vache; le camion, la voiture • Number • e.g. dog vs. dogs; trousers vs. shirt • Count/mass status • e.g. oats vs. flour

Tip-of-the-tongue • Vigliocco et al. (1997) • Subjects (Italian speakers) presented with word definitions • Gender was always arbitrary • If unable to retrieve word, they answered • How well do you think you know the word? • Guess the gender • Guess the number of syllables • Guess as many letters and positions as possible • Report any word that comes to mind • Then presented with target word • Do you know this word? • Is this the word you were thinking of?

Vigliocco et al (1997) • Scoring • + TOT • Both reported some correct information in questionnaire • And said yes to recognition question • - TOT • Otherwise • Vigliocco et al. (1997)

Vigliocco et al (1997) • Results • + TOT: 84% correct gender guess • - TOT: 53% correct gender guess • chance level • Conclusion • Subjects often know grammatical gender information even when they have no phonological information • Supports split between syntax and phonology in production • Vigliocco et al. (1997)

Syntactic level Morphemic level Phonemic level Articulation Nitty-gritty details of the model Message level • Central questions: • How many levels are there? • Are the stages discrete or cascading? • Discrete: must complete before moving on • Cascade: can get started as soon as some information is available • Is there feedback? • Top-down only (serial processing) • Garrett, Levelt • Bottom up too (interactive processing) • Dell, Stemberger, McKay

Doing it in time • Strongest constraint may be fluency: • Have to get form right under time pressure. • Incrementality: • ‘Work with what you’ve got’ • Flexibility: allows speaker to say something quickly, also respond to changing environment. • Modularity: • ‘Work only with what you’ve got’ • Regulate flow of information.

Two different models Levelt (1989) Dell (1986) TACTIC FRAMES LEXICAL NETWORK

Levelt’s model • Four broad stages: • Conceptualization • Deciding on the message (= meaning to express) • Formulation • Turning the message into linguistic representations • Grammatical encoding (finding words and putting them together) • Phonological encoding (finding sounds and putting them together) • Articulation • Speaking (or writing or signing) • Monitoring (via the comprehension system)

Functional processing: • Assignment of roles Grammatical subject Direct object Levelt’s model • Formalization on the Syntax side of the model • Works in parallel with the lexicon side

S VP NP V NP Levelt’s model • Formalization on the Syntax side of the model • Works in parallel with the lexicon side • Positional processing: • Build syntactic tree

Levelt’s model • Tip of tongue state when lemma is retrieved without word-form being retrieved • Formalization on the Lexicon side of the model • Involves lexical retrieval: • Semantic/syntactic content (lemmas) • Phonological content (lexemes or word-forms)

Levelt’s model has stripes is dangerous TIGER (X) Lexical concepts Noun tigre Lemmas Fem. countable /tigre/ Lexemes /t/ /I/ /g/ Phonemes

Levelt’s model: conceptual level has stripes is dangerous • Conceptual level is not decomposed • one lexical concept node for “tiger” • instead, conceptual links from “tiger” to “stripes”, etc. TIGER (X) Noun tigre Fem. countable /tigre/ /t/ /I/ /g/

Levelt’s model: meaning & syntax has stripes is dangerous • First, lemma activation occurs • This involves activating a lemma or lemmas corresponding to the concept • thus, concept TIGER activates lemma “tiger” TIGER (X) Noun tigre Fem. countable /tigre/ /t/ /I/ /g/

Levelt’s model: meaning & syntax has stripes is dangerous • First, lemma activation occurs • This involves activating a lemma or lemmas corresponding to the concept • thus, concept TIGER activates lemma “tiger” TIGER (X) LION (X) Noun • But also involves activating other lemmas • TIGER also activates LION (etc.) to some extent • and LION activates lemma “lion” tigre lion Fem. /tigre/ /t/ /I/ /g/

Levelt’s model: meaning & syntax has stripes is dangerous • First, lemma activation occurs • Second, lemma selection occurs • Selection is different from activation • Only one lemma is selected • Probability of selecting the target lemma (“tiger”) • ratio of that lemma’s activation to the total activation of all lemmas (“tiger”, “lion”, etc.) • Hence competition between semantically related lemmas TIGER (X) LION (X) Noun tigre lion Fem. /tigre/ /t/ /I/ /g/

Morpho-phonological encoding(and beyond) • The lemma is now converted into a phonological representation • called “word-form” (or “lexeme”) • If “tiger” lemma plus plural (and noun) are activated • Leads to activation of morphemes tigre and s • Other processes too • Stress, phonological segments, phonetics, and finally articulation has stripes is dangerous TIGER (X) Noun countable tigre Fem. /tigre/ /t/ /I/ /g/

Model’s assumptions • Modularity • Later processes cannot affect earlier processes • No feedback between the word-form (lexemes) layer and the grammatical (lemmas) layer • Also, only one lemma activates a word form • If “tiger” and “lion” lemmas are activated, they compete to produce a winner at the lemma stratum • Only the “winner” activates a word form (selection) • The word-forms for the “losers” aren’t accessed

Dell’s interactive account • Dell (1986) presented the one of the best-known interactive accounts • other similar accounts exist (e.g., Stemberger, McKay) • Network organization • 3 levels of representation • Semantics (decomposed into features) • Words and morphemes • phonemes (sounds) • These get selected and inserted into frames

Dell’s interactive account TACTIC FRAMES LEXICAL NETWORK Dell (1986) A moment in the production of: “Some swimmers sink”

Interactive because information flows “upwards” information Dell’s interactive account Dell (1986) TACTIC FRAMES LEXICAL NETWORK as well as “downwards” information • Cascading because processing at lower levels can start early

Dell’s interactive account Dell (1986) • these send activation back to the word level, activating words containing these sounds (e.g., “log”, “dot”) to some extent FURRY BARKS MAMMAL • e.g., the semantic features mammal, barks, four-legs activate the word “dog” • this activates the sounds /d/, /o/, /g/ dot dog log /t/ /d/ /g/ /a/ /l/ this activation is upwards (phonology to syntax) and wouldn’t occur in Levelt’s account

PSY 369: Psycholinguistics