Grammar as Choice 

Grammar as Choice Conflict, concord, & optimality

Choice • Grammar involves Multi-criterion Decision Making • Similar problems arise in cognitive psychology (Gigerenzer, Kahneman, Tversky), economics (Arrow), neural networks (Smolensky), politics, operations research, and so on. • Many factors interact to determine the form of words, phrases, sentences,… • They need not be remotely in agreement about the best outcome or course of action.

The Three Pillars of Decision • What are the alternatives? • from which one must choose. • What are the criteria? • which evaluate the alternatives. • How do the many criteria combine into a single decision? • given pervasive conflict among them.

Alternatives • The generative stance: the alternatives are actions • They modify, structure, re-structure, or preserve an input • As a result, an output is defined. • The choice is among different (In,Out) pairings.

An Example • The Regular Past Tense of English Spelled Pronounced Observed Suffix massed mæst -t nabbed næbd -d patted pætəd -əd

An Example • The Regular Past Tense of English Spelled Pronounced Observed Suffix massed mæst -t nabbed næbd -d patted pætəd -əd  No overlap in distribution of suffix variants

An Example • The Regular Past Tense of English Spelled Pronounced Observed Suffix massed mæst -t nabbed næbd -d patted pætəd -əd  No overlap in distribution of suffix variants  Suffix variants highly similar phonetically

An Example • The Regular Past Tense of English Spelled Pronounced Observed Suffix massed mæst -t nabbed næbd -d patted pætəd -əd  No overlap in distribution of suffix variants  Suffix variants highly similar phonetically •  Choice of variant entirely predictable on general grounds

Regular Past Tense Suffix

Regular Past Tense Suffix d

Regular Past Tense Suffix d Similarity ← Identity There is just one suffix: /d/

Lexical Representation Lexical Representation • ‘massed’ mæs+d • ‘nabbed’ næb+d • ‘patted’ pæt+d • RelationsElementary Actions d  d nil d  t devoice d  -əd insert

Dilemmas of Action • Reluctance  +voi  –voi doesn’t remove all b,d,g’s from the language • Ø  ə doesn’t spray schwas into every crevice • Compliance • Faithful reproduction of input not possible: • *mæsd, * pætd  Action is taken only to deal with such problems • Choices, choices – Insertion solves all problems. Yet we don’t always do it. *mæsəd is entirely possible (cf. ‘placid’)

The Two Classes of Criteria Markedness. Judging the outcome.e.g. *Diff(voi). (Final) Obstruent clusters may not differ in voicing. *pd, *bt, *td, *ds, *zt,etc. *Gem. Adjacent consonants may not be identical. *tt, *dd, *bb,… [in pronunciation] This analysis follows Bakovic 2004. Faithfulness. Judging the action. Input=Output in a certain property Every elementary action is individually proscribed: e.g. NoDevoicing. NoInsertion. NoDeletion.

The Two Classes of Criteria Markedness. Judging the outcome.e.g. *Diff(voi). (Final) Obstruent clusters may not differ in voicing. *pd, *bt, *td, *ds, *zt, etc. *Gem. Adjacent consonants may not be identical. *tt, *dd, *bb,… [in pronunciation] This analysis follows Bakovic 2004. Faithfulness. Judging the action. Input=Output in a certain property Every elementary action is individually proscribed: e.g. NoDevoicing. NoInsertion. NoDeletion.

The Two Classes of Criteria Markedness. Judging the outcome. Demands compliance with output standards Faithfulness. Judging the action. Enforces reluctance to act

Penalties • Constraints assess only penalties • no rewards for good behavior • Actions are reluctant because constraints on action always favor inaction — by penalizing change. • Actions happen because constraints on outcome force violation of constraints against action.

Conflicts Abound • The faithfulness constraints disagree among themselves • And M:*Diff disagrees with F:NoDevoicing.

Conflicts Abound • The faithfulness constraints disagree among themselves  W marks preference for desired winner;  L preference for desired loser

Conflicts Abound • The faithfulness constraints disagree among themselves • And M:*Diff disagrees with F:NoDev.

All Conflicts Resolved • Impose a strict priority order ‘>>’ on the set of constraints • Here: *Gem, *Diff >> NoIns >>NoDel • In any pairwise comparison of x vs. y x y ‘x is better than y’ iff the highest-ranked constraint distinguishing x from y prefers x. • Optimal. x is optimal iff x y for every y y violationwise distinct from x

Lexicographic • Better Than, ‘’: lexicographic order on the alternatives. • Sort by the highest ranked constraint • If it does not decide, on to the next highest. • And so on. • Like sorting by first letter (able < baker) • and then the next, if that doesn’t decide: (aardvark<abacus) • and then the next (azimuth < azure), and so on. • Or ordering numerals by place 100 < 200 119 < 130 2235 < 2270

Optimality Theory • Alternatives. • A set of (input,output) pairs. • A given input is matched with every possible output. • Criteria. • A set of constraints, of two species • Markedness: judging outcomes • Faithfulness: judging actions • Collective judgment. • Derives from a strict prioritization of the constraint set. • Imposes lexicographic order on alternatives. Take the best.

Universality To make maximal use of theoretical resources and minimal commitment to extraneous devices, assume: • Fixed. • The set of alternatives is universal. • Fixed. • The set of constraints is universal. • Varying. • Languages differ freely in the ranking of the constraint set.

Harmonic Ascent Getting better all the time

Beyond Replication • Faithful mapping: In=Out ‘nabbed’ næb+d  næbd • What does it take to beat the faithful candidate? • Moreton 2002, 2004 asks and answers this question. • Fully Faithful xx satisfies every F constraint. • Nothing can do better than that on the F’s. • Nonfaithful xy beats faithful xx iff • The highest ranked constraint distinguishing them prefers xy

Triumph of Markedness That decisive constraint must be a Markedness constraint. • Since every F is happy with the faithful candidate.

Harmonic Ascent = Markedness Descent • For a constraint hierarchy H, let H|M be the subhierarchy of Markedness constraints within it. • If H:α φ, for φ fully faithful, then H|M: α φ • If things do not stay the same, they must get better. • Analysis and results due to Moreton 2002, 2004.

Markedness Rating by H|M M: *Diff(voi) >> M:*Voi pt, bd (0) pt (0) bd (2) bt, pd (1) bt, pd (1) Good Bad  Note lexicographic refinement of classes Constraints from Lombardi 1999

Markedness-Admissible Mappings pt bd btpd Good Bad  Where you stop the ascent, and if you can, depends on H|F.

Utterly Impossible Mappings pt bd btpd Good Bad

Consequences of Harmonic Ascent • No Circular Shifts in MF/OT Shifts that happen • Western Basque (Kirchner 1995) a →e alaba+a → alabea e → i seme+e → semie • Catalan (Mascaró 1978, Wheeler 1979) nt → n kuntent → kunten n → Ø plan→ pla  Analyzed recently in Moreton & Smolensky 2002

No Circular Shifts • Harmonic Ascent • Any such shift must result in betterment vis-à-vis H|M. • The goodness order imposed on alternatives is • Asymmetric: NOT[ a b & b a] • Transitive: [ab & b c]  ab • Can’t have • x→ y • y → z • z → x • Such a cycle would give: x  x (contradiction!)

Way Up ≠ Way Down z y x Good Bad

Shift Data • Large numbers exist • Moreton & Smolensky collect 35 segmental cases • 3 doubtful, 4 inferred: 28 robustly evidenced. • Onepotential counterexample • Taiwanese/ Xiamen Tone Circle • See Yip 2002, Moreton 2002, and many others for discussion.

Coastal Taiwanese Tone Shifts Diagram from Feng-fan Hsieh, http://www.ling.nthu.edu.tw/teal/TEAL_oral_FengFan_Hsieh.pdf

Not the True Article? • No basis in justifiable Markedness for shifts (Yip). • “Paradigm Replacement” • Moreton 2002. Yip 1980, 2002. Chen 2002. Mortensen 2004. Hsieh 2004. Chen 2000.

No Endless Shifts NO: x → y →z → … → ……

No Endless Shifts NO: x → y →z → … → …… • E.g: “Add one syllable to input”

No Endless Shifts NO: x → y →z → … → …… • E.g: “Add one syllable to input” • Because constraints only penalize, there is an end to getting better.

No Endless Shifts NO: x → y →z → … → …… • E.g: “Add one syllable to input” • Because constraints only penalize, there is an end to getting better. • This is certainly a correct result. — we can add one syllable to hit a fixed target (e.g. 2 sylls.) not merely to expand regardless of shape of outcome.

Conclusions • Harmonic Ascent and its consequences nontrivial, since mod of theory can easily eliminate. E.g. ‘Antifaithfulness.’ • Design of the theory succeeds in taking property of atomic components (single M constraint) and propagating it to the aggregate judgment. • Requires: transitive, asymmetric order, commitment to penalization, strict limitation to M & F constraints.

Concord Nonconflict in OT

Constraints in conflict

Constraints need not conflict

Grammar as Choice 

Grammar as Choice 

Presentation Transcript

APPETIZERS 1. EGG ROLL…………………………....…..........3 For $3.50 1 For $1.25 2. SATAY CHICKEN…

D aily G rammar P ractice

Assessing Grammar

Techniques in grammar instruction

What is The Story Grammar Marker (SGM)?

Teaching Grammar through Literacy

An Introduction to Natural Language Syntax

Teaching Grammar through Literacy

Grammar Workshop

Computational Social Choice

Four Levels of Grammar

Methods For Grammar Teaching

The Grammar – Translation Method

Writing Section

How to teach grammar?

Writer’s Craft Notebooks Analyzing Author’s Craft to Enhance My Craft

Grammar Rule:

2.0

Grammar 一般现在时 ( Simple Present Tense )