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Generative Lexicon: Integrating Theoretical andDistributional Methods
James Pustejovsky Elisabetta JezekBrandeis University University of Pavia
July 17-21, 20173. Event Structure
ESSLLI 2017University of Toulouse
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Course Outline
July 17: Introduction to GL and Distributional Analysis
July 18: Qualia Structure
July 19: Event Structure
July 20: Argument Structure
July 21: Meaning Composition and Co-composition
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Lecture 1: July 17
Introduction to GL and Distributional Analysis
Basic concepts in GLNotation and Language: typed feature structuresQualia StructureEvents and their participantsMeaning Composition in GLDistributed meaning: Spreading the semantic load
Polysemy in language
Types of contextual variationsDetecting copredications in corpora
Evidence-based linguistics and distributional analysis
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Lecture 2: July 18
Qualia Structure
What is a Quale?
What motivates Qualia?
Default Qualia and context updating
Methodology to identify Qualia
Data for each Quale
Qualia and Conventionalized Attributes
Qualia and Type Systems
Lab on Qualia identification in corpora using SkE
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Lecture 3: July 19
Event Structure
Events as Structured Objects
Event TypesStatesTransitionsPoint VerbsProcesses
Events as Labeled Transition Systems
Dynamic Event Models
Lab on detection of event types properties in corpora
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Lecture 4: July 20
Argument Structure
Argument Types in GLTrue ArgumentsShadow ArgumentsHidden Arguments
Argument Structure RepresentationSemantic Types and Lexical SetsDistributional Approach to Semantic Types
Arguments and Defaulting
Dynamic Argument Structure
Lab on Semantic Types and Lexical Sets
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Lecture 5: July 21
Meaning Composition and Co-composition in GL
Basic Assumptions
Simple Function Application
Coercion
Subselection
Co-composition
Studies in evidence-based coercion
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Lecture 3: Event Structure
Events as Structured Objects
Event TypesStatesTransitionsPoint VerbsProcesses
Events as Labeled Transition Systems
Dynamic Event Models
Lab on detection of event types properties in corpora
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Aktionsarten – conceptual categories of event types
Stative vs. Non-stative
States -Conceived of as not changing over time, as well asextended in time and permanent.
(1) a. John is tall.b. Mary knows the answer.c. It is 8:00 p.m.d. ! John is being tall.
Generally only compatible with simple present, but notice extendeduse of progressive and subtle meaning differences:
(2) . a. The statue stands in the square.b. The statue is standing in the square.
Structural vs. Phenomenal distinction – Goldsmith andWoisetschlager (1979)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Aktionsarten – conceptual categories of event types
Stative vs. Non-stative
States -Conceived of as not changing over time, as well asextended in time and permanent.
(3) a. John is tall.b. Mary knows the answer.c. It is 8:00 p.m.d. ! John is being tall.
Generally only compatible with simple present, but notice extendeduse of progressive and subtle meaning differences:
(4) . a. The statue stands in the square.b. The statue is standing in the square.
Structural vs. Phenomenal distinction – Goldsmith andWoisetschlager (1979)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Aktionsarten – conceptual categories of event types
Stative vs. Non-stative
States -Conceived of as not changing over time, as well asextended in time and permanent.
(5) a. John is tall.b. Mary knows the answer.c. It is 8:00 p.m.d. ! John is being tall.
Generally only compatible with simple present, but notice extendeduse of progressive and subtle meaning differences:
(6) . a. The statue stands in the square.b. The statue is standing in the square.
Structural vs. Phenomenal distinction – Goldsmith andWoisetschlager (1979)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Aktionsarten – conceptual categories of event types
Stative vs. Non-stative
States -Conceived of as not changing over time, as well asextended in time and permanent.
(7) a. John is tall.b. Mary knows the answer.c. It is 8:00 p.m.d. ! John is being tall.
Generally only compatible with simple present, but notice extendeduse of progressive and subtle meaning differences:
(8) . a. The statue stands in the square.b. The statue is standing in the square.
Structural vs. Phenomenal distinction – Goldsmith andWoisetschlager (1979)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Aktionsarten – conceptual categories of event types
Stative vs. Non-stative
States -Conceived of as not changing over time, as well asextended in time and permanent.
(9) a. John is tall.b. Mary knows the answer.c. It is 8:00 p.m.d. ! John is being tall.
Generally only compatible with simple present, but notice extendeduse of progressive and subtle meaning differences:
(10) . a. The statue stands in the square.b. The statue is standing in the square.
Structural vs. Phenomenal distinction – Goldsmith andWoisetschlager (1979)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Temporary vs. permanent states
As seen with the English progressive marking before, states are notalways permanent. Other languages also mark these differences(but not always for the same concepts).
Spanish – ser vs. estar
(11) a. Soy enfermo (I am a sickly person)b. Estoy enfermo (if I have a cold)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Temporary vs. permanent states
As seen with the English progressive marking before, states are notalways permanent. Other languages also mark these differences(but not always for the same concepts).
Spanish – ser vs. estar
(12) a. Soy enfermo (I am a sickly person)b. Estoy enfermo (if I have a cold)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Processes
Involve change and are extended in time. In present tensethey need to be used in the progressive (unless habitual)
(13) . a. John ran a mile in under four minutes.b. Sheila wrote three letters in an hour.c. !John ran a mile for six minutes.d. !Sheila ate an apple for ten minutes.
(14) a. John ran for twenty minutes.b. Sheila ate apples for two days straight.c. !John ran in twenty minutes.d. !Sheila ate apples in two days.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Processes
Involve change and are extended in time. In present tensethey need to be used in the progressive (unless habitual)
(15) . a. John ran a mile in under four minutes.b. Sheila wrote three letters in an hour.c. !John ran a mile for six minutes.d. !Sheila ate an apple for ten minutes.
(16) a. John ran for twenty minutes.b. Sheila ate apples for two days straight.c. !John ran in twenty minutes.d. !Sheila ate apples in two days.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Processes
Involve change and are extended in time. In present tensethey need to be used in the progressive (unless habitual)
(17) . a. John ran a mile in under four minutes.b. Sheila wrote three letters in an hour.c. !John ran a mile for six minutes.d. !Sheila ate an apple for ten minutes.
(18) a. John ran for twenty minutes.b. Sheila ate apples for two days straight.c. !John ran in twenty minutes.d. !Sheila ate apples in two days.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Distinguishing Processes from Transitions
Activities: Atelic i.e. have no natural endpoint or goal (e.g.I’m running in the park) Compatible with a durative adverbial(e.g. for) that profiles the amount of time the activity takes.
Accomplishments: Telic i.e. have a natural endpoint of goal(e.g. I’m running a mile) Compatible with a containeradverbial (e.g. in) that profiles the amount of time taken toreach the desired goal.
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Distinguishing Processes from Transitions
Activities: Atelic i.e. have no natural endpoint or goal (e.g.I’m running in the park) Compatible with a durative adverbial(e.g. for) that profiles the amount of time the activity takes.
Accomplishments: Telic i.e. have a natural endpoint of goal(e.g. I’m running a mile) Compatible with a containeradverbial (e.g. in) that profiles the amount of time taken toreach the desired goal.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Typological Effects
Some languages are more systematic than English in distinguishingindicators of actual and potential terminal points. Thus Swedishuse different prepositions:
(19) Jeg reser till Frankrike pa tva manader.I(’m) going to France for two months.
(20) Jeg reste i Frankrike i tva manader.I traveled in France for two months.
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Typological Effects
Some languages are more systematic than English in distinguishingindicators of actual and potential terminal points. Thus Swedishuse different prepositions:
(21) Jeg reser till Frankrike pa tva manader.I(’m) going to France for two months.
(22) Jeg reste i Frankrike i tva manader.I traveled in France for two months.
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Achievements and points
Achievements: Events that are conceived of as instantaneous.Often, however, there is an underlying activity that causes achange of state. Their point-like nature tends to require them tobe described in the past tense or narrative present.
(23) a. John shattered the window.b. ! John shatters/is shattering the window.c. The canals froze.d. Mary found her keys.e. *Mary is finding her keys.f. John reached the top.
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Achievements and points
Achievements: Events that are conceived of as instantaneous.Often, however, there is an underlying activity that causes achange of state. Their point-like nature tends to require them tobe described in the past tense or narrative present.
(24) a. John shattered the window.b. ! John shatters/is shattering the window.c. The canals froze.d. Mary found her keys.e. *Mary is finding her keys.f. John reached the top.
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Achievements and points
Points: Similar to achievements in being conceived asinstantaneous, but without the underlying run-up activity thatcharacterizes gradual achievements
(25) a. Bill coughed.b. The light flashed.c. Bill is coughing.d. The light is flashing.
(c) and (d) have an iterative interpretation. Compare with thegradual achievements John is reaching the top or The canals arefreezing.
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Achievements and points
Points: Similar to achievements in being conceived asinstantaneous, but without the underlying run-up activity thatcharacterizes gradual achievements
(26) a. Bill coughed.b. The light flashed.c. Bill is coughing.d. The light is flashing.
(c) and (d) have an iterative interpretation. Compare with thegradual achievements John is reaching the top or The canals arefreezing.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Achievements and points
Points: Similar to achievements in being conceived asinstantaneous, but without the underlying run-up activity thatcharacterizes gradual achievements
(27) a. Bill coughed.b. The light flashed.c. Bill is coughing.d. The light is flashing.
(c) and (d) have an iterative interpretation. Compare with thegradual achievements John is reaching the top or The canals arefreezing.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Vendler Event Classes + Semelfactive
state: John loves his mother.
activity: Mary played in the park for an hour.
accomplishment: Mary wrote a novel.
achievement: John found a Euro on the floor.
point: John knocked on the door (for 2 minutes).
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Vendler Event Classes + Semelfactive
state: John loves his mother.
activity: Mary played in the park for an hour.
accomplishment: Mary wrote a novel.
achievement: John found a Euro on the floor.
point: John knocked on the door (for 2 minutes).
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Vendler Event Classes + Semelfactive
state: John loves his mother.
activity: Mary played in the park for an hour.
accomplishment: Mary wrote a novel.
achievement: John found a Euro on the floor.
point: John knocked on the door (for 2 minutes).
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Vendler Event Classes + Semelfactive
state: John loves his mother.
activity: Mary played in the park for an hour.
accomplishment: Mary wrote a novel.
achievement: John found a Euro on the floor.
point: John knocked on the door (for 2 minutes).
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Vendler Event Classes + Semelfactive
state: John loves his mother.
activity: Mary played in the park for an hour.
accomplishment: Mary wrote a novel.
achievement: John found a Euro on the floor.
point: John knocked on the door (for 2 minutes).
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Bach Eventuality Typology (Bach, 1986)
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Event Transition Graph (Moens and Steedman 1988)
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Incremental Theme Verbs
Certain NP’s measure out the event. They are direct objectsconsumed or created in increments over time (cf. eat an applevs. push a chart) (Tenny 1994).
In Mary drank a glass of wine “every part of the glass of winebeing drunk corresponds to a part of the drinking event”(Krifka 1992)
“Incremental themes are arguments that are completelyprocessed only upon termination of the event, i.e., at its endpoint” (Dowty 1991).
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Incremental Theme Verbs
Certain NP’s measure out the event. They are direct objectsconsumed or created in increments over time (cf. eat an applevs. push a chart) (Tenny 1994).
In Mary drank a glass of wine “every part of the glass of winebeing drunk corresponds to a part of the drinking event”(Krifka 1992)
“Incremental themes are arguments that are completelyprocessed only upon termination of the event, i.e., at its endpoint” (Dowty 1991).
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Incremental Theme Verbs
Certain NP’s measure out the event. They are direct objectsconsumed or created in increments over time (cf. eat an applevs. push a chart) (Tenny 1994).
In Mary drank a glass of wine “every part of the glass of winebeing drunk corresponds to a part of the drinking event”(Krifka 1992)
“Incremental themes are arguments that are completelyprocessed only upon termination of the event, i.e., at its endpoint” (Dowty 1991).
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Degree Achievements
Verbs with variable aspectual behavior: they seems to bechange of state verbs like other achievements , but allowdurational adverbs (Dowty 1979, Hay, Kennedy and Levin1999, Rappaport Hovav 2008).
No implication that exactly the same change of state tookplace over and over again (no semelfactives).
Scalar predicates: verbs which lexically specify a change alonga scale inasmuch as they denote an ordered set of values for aproperty of an event argument (Hay, Kennedy and Levin 1999,Rappaport Hovav 2008).
For example cool, age, lenghten, shorten; descend.
Let the soup cool for 10 minutes.
I went on working until the soup cooled.
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19/1
Degree Achievements
Verbs with variable aspectual behavior: they seems to bechange of state verbs like other achievements , but allowdurational adverbs (Dowty 1979, Hay, Kennedy and Levin1999, Rappaport Hovav 2008).
No implication that exactly the same change of state tookplace over and over again (no semelfactives).
Scalar predicates: verbs which lexically specify a change alonga scale inasmuch as they denote an ordered set of values for aproperty of an event argument (Hay, Kennedy and Levin 1999,Rappaport Hovav 2008).
For example cool, age, lenghten, shorten; descend.
Let the soup cool for 10 minutes.
I went on working until the soup cooled.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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19/1
Degree Achievements
Verbs with variable aspectual behavior: they seems to bechange of state verbs like other achievements , but allowdurational adverbs (Dowty 1979, Hay, Kennedy and Levin1999, Rappaport Hovav 2008).
No implication that exactly the same change of state tookplace over and over again (no semelfactives).
Scalar predicates: verbs which lexically specify a change alonga scale inasmuch as they denote an ordered set of values for aproperty of an event argument (Hay, Kennedy and Levin 1999,Rappaport Hovav 2008).
For example cool, age, lenghten, shorten; descend.
Let the soup cool for 10 minutes.
I went on working until the soup cooled.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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19/1
Degree Achievements
Verbs with variable aspectual behavior: they seems to bechange of state verbs like other achievements , but allowdurational adverbs (Dowty 1979, Hay, Kennedy and Levin1999, Rappaport Hovav 2008).
No implication that exactly the same change of state tookplace over and over again (no semelfactives).
Scalar predicates: verbs which lexically specify a change alonga scale inasmuch as they denote an ordered set of values for aproperty of an event argument (Hay, Kennedy and Levin 1999,Rappaport Hovav 2008).
For example cool, age, lenghten, shorten; descend.
Let the soup cool for 10 minutes.
I went on working until the soup cooled.
Pustejovsky and Jezek GL: Integrating Distributional Methods
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20/1
Points
Moens and Steedman 1988 analyze point expressions as thosethat are not normally associated to a consequent state(consequent state defined as no transition to a new state inthe world – according to Moens and Steedman a point is anevent whose consequences are not at issue in the discourse).
Semelfactives (Smith 1990, Rothstein 2004).
*arrived/landed for five minutes, knocked/tapped for fiveminutes.
Points admit iterative readings under coercive contexts(Moens and Steedman 1988).
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Points
Moens and Steedman 1988 analyze point expressions as thosethat are not normally associated to a consequent state(consequent state defined as no transition to a new state inthe world – according to Moens and Steedman a point is anevent whose consequences are not at issue in the discourse).
Semelfactives (Smith 1990, Rothstein 2004).
*arrived/landed for five minutes, knocked/tapped for fiveminutes.
Points admit iterative readings under coercive contexts(Moens and Steedman 1988).
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20/1
Points
Moens and Steedman 1988 analyze point expressions as thosethat are not normally associated to a consequent state(consequent state defined as no transition to a new state inthe world – according to Moens and Steedman a point is anevent whose consequences are not at issue in the discourse).
Semelfactives (Smith 1990, Rothstein 2004).
*arrived/landed for five minutes, knocked/tapped for fiveminutes.
Points admit iterative readings under coercive contexts(Moens and Steedman 1988).
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20/1
Points
Moens and Steedman 1988 analyze point expressions as thosethat are not normally associated to a consequent state(consequent state defined as no transition to a new state inthe world – according to Moens and Steedman a point is anevent whose consequences are not at issue in the discourse).
Semelfactives (Smith 1990, Rothstein 2004).
*arrived/landed for five minutes, knocked/tapped for fiveminutes.
Points admit iterative readings under coercive contexts(Moens and Steedman 1988).
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Aspectual Composition
Bare plurals and mass-terms arguments can make a sentencewith a telic predicate behave as if it were ’durative’ or’imperfective’ in aspect (Verkuyl 1972).
John drank a glass of beer (perfective).
John drank beer (imperfective).
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21/1
Aspectual Composition
Bare plurals and mass-terms arguments can make a sentencewith a telic predicate behave as if it were ’durative’ or’imperfective’ in aspect (Verkuyl 1972).
John drank a glass of beer (perfective).
John drank beer (imperfective).
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21/1
Aspectual Composition
Bare plurals and mass-terms arguments can make a sentencewith a telic predicate behave as if it were ’durative’ or’imperfective’ in aspect (Verkuyl 1972).
John drank a glass of beer (perfective).
John drank beer (imperfective).
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21/1
Aspectual Composition
Bare plurals and mass-terms arguments can make a sentencewith a telic predicate behave as if it were ’durative’ or’imperfective’ in aspect (Verkuyl 1972).
John drank a glass of beer (perfective).
John drank beer (imperfective).
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22/1
Aspectual Coercion
“A person leads somebody somewhere” (PROCESS) vs. “Aroad leads somewhere” (STATE)
“An object falls to the ground” (TRANSITION) vs. “A casefalls into a certain category” (STATE)
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22/1
Aspectual Coercion
“A person leads somebody somewhere” (PROCESS) vs. “Aroad leads somewhere” (STATE)
“An object falls to the ground” (TRANSITION) vs. “A casefalls into a certain category” (STATE)
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23/1
Subatomic Event StructurePustejovsky (1991)
(28) a. event → state ∣ process ∣ transition
b. state: → ec. process: → e1 . . . end. transitionach: → state statee. transitionacc : → process state
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23/1
Subatomic Event StructurePustejovsky (1991)
(29) a. event → state ∣ process ∣ transitionb. state: → e
c. process: → e1 . . . end. transitionach: → state statee. transitionacc : → process state
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23/1
Subatomic Event StructurePustejovsky (1991)
(30) a. event → state ∣ process ∣ transitionb. state: → ec. process: → e1 . . . en
d. transitionach: → state statee. transitionacc : → process state
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23/1
Subatomic Event StructurePustejovsky (1991)
(31) a. event → state ∣ process ∣ transitionb. state: → ec. process: → e1 . . . end. transitionach: → state state
e. transitionacc : → process state
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23/1
Subatomic Event StructurePustejovsky (1991)
(32) a. event → state ∣ process ∣ transitionb. state: → ec. process: → e1 . . . end. transitionach: → state statee. transitionacc : → process state
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24/1
Qualia Structure for CausativePustejovsky (1995)
⎡⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎣
kill
eventstr =
⎡⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎣
e1 = e1:processe2 = e2:stateRestr = <∝Head = e1
⎤⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎦
argstr =
⎡⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎣
arg1 = 1
⎡⎢⎢⎢⎢⎢⎣
indformal = physobj
⎤⎥⎥⎥⎥⎥⎦
arg2 = 2
⎡⎢⎢⎢⎢⎢⎣
animate indformal = physobj
⎤⎥⎥⎥⎥⎥⎦
⎤⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎦
qualia =
⎡⎢⎢⎢⎢⎢⎢⎢⎢⎣
cause-lcpformal = dead(e2, 2 )agentive = kill act(e1, 1 , 2 )
⎤⎥⎥⎥⎥⎥⎥⎥⎥⎦
⎤⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎦
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25/1
Opposition StructurePustejovsky (2000)
(33) kille
<������
HHHHHH
e2
dead(y)
e∗1
kill act(x , y)¬dead(y)
(34) breake
<������
HHHHHH
e2
broken(y)
e1
break act(x , y)¬broken(y)
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Qualia Structure with Opposition Structure
⎡⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎣
kill
eventstr =
⎡⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎣
e0 = e0:statee1 = e1:processe2 = e2:stateRestr = <∝Head = e1
⎤⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎦
argstr =
⎡⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎣
arg1 = 1
⎡⎢⎢⎢⎢⎢⎣
indformal = physobj
⎤⎥⎥⎥⎥⎥⎦
arg2 = 2
⎡⎢⎢⎢⎢⎢⎣
animate indformal = physobj
⎤⎥⎥⎥⎥⎥⎦
⎤⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎦
qualia =
⎡⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎢⎣
cause-lcpformal = dead(e2, 2 )agentive = kill act(e1, 1 , 2 )precond = ¬dead(e0, 2 )
⎤⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎦
⎤⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎥⎦
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Opposition is Part of Event Structure
eHHHHH
�����
<
e1kill act(x , y)
e2
¬dead(w)P
HHH
HH
dead(w)P
�����
OSe<HHHH����e1
○e1
HHH���
kill act(x , y)
e3
¬dead(y)
e2
dead(y)
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28/1
Dynamic Extensions to GL
Qualia Structure: Can be interpreted dynamically
Dynamic Selection: Encodes the way an argument participatesin the event
Tracking change: Models the dynamics of participantattributes
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28/1
Dynamic Extensions to GL
Qualia Structure: Can be interpreted dynamically
Dynamic Selection: Encodes the way an argument participatesin the event
Tracking change: Models the dynamics of participantattributes
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28/1
Dynamic Extensions to GL
Qualia Structure: Can be interpreted dynamically
Dynamic Selection: Encodes the way an argument participatesin the event
Tracking change: Models the dynamics of participantattributes
Pustejovsky and Jezek GL: Integrating Distributional Methods
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29/1
Inherent Dynamic Aspect of Qualia Structure
Parameters of a verb, P, extend over sequential frames ofinterpretation (subevents).
P is decomposed into different subpredicates within theseevents:
Verb(Arg1Arg2) Ô⇒ λyλx P1(x , y)A
P2(y)F
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29/1
Inherent Dynamic Aspect of Qualia Structure
Parameters of a verb, P, extend over sequential frames ofinterpretation (subevents).
P is decomposed into different subpredicates within theseevents:
Verb(Arg1Arg2) Ô⇒ λyλx P1(x , y)A
P2(y)F
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29/1
Inherent Dynamic Aspect of Qualia Structure
Parameters of a verb, P, extend over sequential frames ofinterpretation (subevents).
P is decomposed into different subpredicates within theseevents:
Verb(Arg1Arg2) Ô⇒ λyλx P1(x , y)A
P2(y)F
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30/1
Frame-based Event Structure
Φ ¬Φ
Φ
Φ/p Φ/¬p Φ/p Φ/¬p+
State (S)
DerivedTransition
Transition (T)
Process (P)
Φ/p Φ/¬p Φ/p Φ/¬p+
ΦP(x)
¬Φ¬P(x)
2nd Conference on CTF, Pustejovsky (2009)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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31/1
Dynamic Event Structure
Events are built up from multiple (stacked) layers of primitiveconstraints on the individual participants.
There may be many changes taking place within one atomicevent, when viewed at the subatomic level.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 69: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/69.jpg)
31/1
Dynamic Event Structure
Events are built up from multiple (stacked) layers of primitiveconstraints on the individual participants.
There may be many changes taking place within one atomicevent, when viewed at the subatomic level.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 70: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/70.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:1 They can be ordered, α;β ( α is followed by β);2 They can be iterated, a∗ (apply a zero or more times);3 They can be disjoined, α ∪ β (apply either α or β);4 They can be turned into formulas
[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 71: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/71.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:1 They can be ordered, α;β ( α is followed by β);2 They can be iterated, a∗ (apply a zero or more times);3 They can be disjoined, α ∪ β (apply either α or β);4 They can be turned into formulas
[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 72: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/72.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:1 They can be ordered, α;β ( α is followed by β);2 They can be iterated, a∗ (apply a zero or more times);3 They can be disjoined, α ∪ β (apply either α or β);4 They can be turned into formulas
[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 73: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/73.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:
1 They can be ordered, α;β ( α is followed by β);2 They can be iterated, a∗ (apply a zero or more times);3 They can be disjoined, α ∪ β (apply either α or β);4 They can be turned into formulas
[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 74: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/74.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:1 They can be ordered, α;β ( α is followed by β);
2 They can be iterated, a∗ (apply a zero or more times);3 They can be disjoined, α ∪ β (apply either α or β);4 They can be turned into formulas
[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 75: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/75.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:1 They can be ordered, α;β ( α is followed by β);2 They can be iterated, a∗ (apply a zero or more times);
3 They can be disjoined, α ∪ β (apply either α or β);4 They can be turned into formulas
[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 76: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/76.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:1 They can be ordered, α;β ( α is followed by β);2 They can be iterated, a∗ (apply a zero or more times);3 They can be disjoined, α ∪ β (apply either α or β);
4 They can be turned into formulas[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 77: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/77.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:1 They can be ordered, α;β ( α is followed by β);2 They can be iterated, a∗ (apply a zero or more times);3 They can be disjoined, α ∪ β (apply either α or β);4 They can be turned into formulas
[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 78: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/78.jpg)
32/1
Dynamic Interval Temporal Logic
(Pustejovsky and Moszkowicz, 2011)
Formulas: φ propositions. Evaluated in a state, s.
Programs: α, functions from states to states, s × s. Evaluatedover a pair of states, (s, s ′).
Temporal Operators: ◯φ, 3φ, 2φ, φ Uψ.
Program composition:1 They can be ordered, α;β ( α is followed by β);2 They can be iterated, a∗ (apply a zero or more times);3 They can be disjoined, α ∪ β (apply either α or β);4 They can be turned into formulas
[α]φ (after every execution of α, φ is true);⟨α⟩φ (there is an execution of α, such that φ is true);
5 Formulas can become programs, φ? (test to see if φ is true,and proceed if so).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 79: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/79.jpg)
33/1
Dynamic Event Structure
(35) a. Mary was sick today.b. My phone was expensive.c. Sam lives in Boston.
We assume that a state is defined as a single frame structure(event), containing a proposition, where the frame is temporallyindexed, i.e., e i → φ is interpreted as φ holding as true at time i .The frame-based representation from Pustejovsky and Moszkowicz(2011) can be given as follows:
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 80: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/80.jpg)
33/1
Dynamic Event Structure
(36) a. Mary was sick today.b. My phone was expensive.c. Sam lives in Boston.
We assume that a state is defined as a single frame structure(event), containing a proposition, where the frame is temporallyindexed, i.e., e i → φ is interpreted as φ holding as true at time i .The frame-based representation from Pustejovsky and Moszkowicz(2011) can be given as follows:
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 81: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/81.jpg)
34/1
Dynamic Event Structure
(37) φi
e
Propositions can be evaluated over subsequent states, of course, sowe need an operation of concatenation, +, which applies to two ormore event frames, as illustrated below.
(38) φi
e+ φ
j
e= φ
[i ,j]
e
Semantic interpretations for these are:
(39) a. [[ φ ]]M,i = 1 iff VM,i(φ) = 1.
b. [[ φ φ ]]M,⟨i ,j⟩ = 1 iff VM,(φ) = 1 and VM,j(φ) = 1,where i < j .
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 82: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/82.jpg)
34/1
Dynamic Event Structure
(40) φi
e
Propositions can be evaluated over subsequent states, of course, sowe need an operation of concatenation, +, which applies to two ormore event frames, as illustrated below.
(41) φi
e+ φ
j
e= φ
[i ,j]
e
Semantic interpretations for these are:
(42) a. [[ φ ]]M,i = 1 iff VM,i(φ) = 1.
b. [[ φ φ ]]M,⟨i ,j⟩ = 1 iff VM,(φ) = 1 and VM,j(φ) = 1,where i < j .
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 83: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/83.jpg)
34/1
Dynamic Event Structure
(43) φi
e
Propositions can be evaluated over subsequent states, of course, sowe need an operation of concatenation, +, which applies to two ormore event frames, as illustrated below.
(44) φi
e+ φ
j
e= φ
[i ,j]
e
Semantic interpretations for these are:
(45) a. [[ φ ]]M,i = 1 iff VM,i(φ) = 1.
b. [[ φ φ ]]M,⟨i ,j⟩ = 1 iff VM,(φ) = 1 and VM,j(φ) = 1,where i < j .
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 84: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/84.jpg)
34/1
Dynamic Event Structure
(46) φi
e
Propositions can be evaluated over subsequent states, of course, sowe need an operation of concatenation, +, which applies to two ormore event frames, as illustrated below.
(47) φi
e+ φ
j
e= φ
[i ,j]
e
Semantic interpretations for these are:
(48) a. [[ φ ]]M,i = 1 iff VM,i(φ) = 1.
b. [[ φ φ ]]M,⟨i ,j⟩ = 1 iff VM,(φ) = 1 and VM,j(φ) = 1,where i < j .
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 85: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/85.jpg)
34/1
Dynamic Event Structure
(49) φi
e
Propositions can be evaluated over subsequent states, of course, sowe need an operation of concatenation, +, which applies to two ormore event frames, as illustrated below.
(50) φi
e+ φ
j
e= φ
[i ,j]
e
Semantic interpretations for these are:
(51) a. [[ φ ]]M,i = 1 iff VM,i(φ) = 1.
b. [[ φ φ ]]M,⟨i ,j⟩ = 1 iff VM,(φ) = 1 and VM,j(φ) = 1,where i < j .
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 86: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/86.jpg)
35/1
Dynamic Event Structure
(52) e i
φ
Tree structure for event concatenation:
e i
φ
+e j
φ
=e[i ,j]
φ
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 87: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/87.jpg)
35/1
Dynamic Event Structure
(53) e i
φ
Tree structure for event concatenation:
e i
φ
+e j
φ
=e[i ,j]
φ
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 88: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/88.jpg)
36/1
Labeled Transition System (LTS)
The dynamics of actions can be modeled as a Labeled TransitionSystems (LTS).
An LTS consists of a 3-tuple, ⟨S ,Act,→⟩, where
(54) a. S is the set of states;b. Act is a set of actions;c. → is a total transition relation: →⊆ S ×Act × S .
(55) (e1, α, e2) ∈→
cf. Fernando (2001, 2013)
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 89: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/89.jpg)
36/1
Labeled Transition System (LTS)
The dynamics of actions can be modeled as a Labeled TransitionSystems (LTS).
An LTS consists of a 3-tuple, ⟨S ,Act,→⟩, where
(56) a. S is the set of states;b. Act is a set of actions;c. → is a total transition relation: →⊆ S ×Act × S .
(57) (e1, α, e2) ∈→
cf. Fernando (2001, 2013)
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 90: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/90.jpg)
36/1
Labeled Transition System (LTS)
The dynamics of actions can be modeled as a Labeled TransitionSystems (LTS).
An LTS consists of a 3-tuple, ⟨S ,Act,→⟩, where
(58) a. S is the set of states;b. Act is a set of actions;c. → is a total transition relation: →⊆ S ×Act × S .
(59) (e1, α, e2) ∈→
cf. Fernando (2001, 2013)
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 91: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/91.jpg)
36/1
Labeled Transition System (LTS)
The dynamics of actions can be modeled as a Labeled TransitionSystems (LTS).
An LTS consists of a 3-tuple, ⟨S ,Act,→⟩, where
(60) a. S is the set of states;b. Act is a set of actions;c. → is a total transition relation: →⊆ S ×Act × S .
(61) (e1, α, e2) ∈→
cf. Fernando (2001, 2013)
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 92: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/92.jpg)
37/1
Labeled Transition System (LTS)
An action, α provides the labeling on an arrow, making it explicitwhat brings about a state-to-state transition.
As a shorthand for
(62) a. (e1, α, e2) ∈→, we will also use:
b. e1αÐ→ e3
S1 S2
p ¬pA
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 93: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/93.jpg)
37/1
Labeled Transition System (LTS)
An action, α provides the labeling on an arrow, making it explicitwhat brings about a state-to-state transition.
As a shorthand for
(63) a. (e1, α, e2) ∈→, we will also use:
b. e1αÐ→ e3
S1 S2
p ¬pA
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 94: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/94.jpg)
37/1
Labeled Transition System (LTS)
An action, α provides the labeling on an arrow, making it explicitwhat brings about a state-to-state transition.
As a shorthand for
(64) a. (e1, α, e2) ∈→, we will also use:
b. e1αÐ→ e3
S1 S2
p ¬pA
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 95: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/95.jpg)
37/1
Labeled Transition System (LTS)
An action, α provides the labeling on an arrow, making it explicitwhat brings about a state-to-state transition.
As a shorthand for
(65) a. (e1, α, e2) ∈→, we will also use:
b. e1αÐ→ e3
S1 S2
p ¬pA
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 96: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/96.jpg)
37/1
Labeled Transition System (LTS)
An action, α provides the labeling on an arrow, making it explicitwhat brings about a state-to-state transition.
As a shorthand for
(66) a. (e1, α, e2) ∈→, we will also use:
b. e1αÐ→ e3
S1 S2
p ¬pA
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 97: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/97.jpg)
38/1
Labeled Transition System (LTS)
If reference to the state content (rather than state name) isrequired for interpretation purposes, then as shorthand for:({φ}e1 , α,{¬φ}e2) ∈→, we use:
(67) φe1
αÐ→ ¬φe2
S1 S2
p ¬pA
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Labeled Transition System (LTS)
If reference to the state content (rather than state name) isrequired for interpretation purposes, then as shorthand for:({φ}e1 , α,{¬φ}e2) ∈→, we use:
(68) φe1
αÐ→ ¬φe2
S1 S2
p ¬pA
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Temporal Labeled Transition System (TLTS)
With temporal indexing from a Linear Temporal Logic, we candefine a Temporal Labeled Transition System (TLTS). For a state,e1, indexed at time i , we say e1@i .({φ}e1@i , α,{¬φ}e2@i+1) ∈→(i ,i+1), we use:
(69) φi
e1
αÐ→ ¬φi+1
e2
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Temporal Labeled Transition System (TLTS)
With temporal indexing from a Linear Temporal Logic, we candefine a Temporal Labeled Transition System (TLTS). For a state,e1, indexed at time i , we say e1@i .({φ}e1@i , α,{¬φ}e2@i+1) ∈→(i ,i+1), we use:
(70) φi
e1
αÐ→ ¬φi+1
e2
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Dynamic Event Structure
(71) e[i,i+1]HHHHH
�����
e i1-α
e i+12
φ ¬φ
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Dynamic Event Structure
(72) Mary awoke from a long sleep.
The state of being asleep has a duration, [i , j], who’s valuation isgated by the waking event at the “next state”, j + 1.
(73) e[i,j+1]HH
HHH
�����
e[i,j]1-α
e j+12
φ ¬φ
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Dynamic Event Structure
(74) Mary awoke from a long sleep.
The state of being asleep has a duration, [i , j], who’s valuation isgated by the waking event at the “next state”, j + 1.
(75) e[i,j+1]HH
HHH
�����
e[i,j]1-α
e j+12
φ ¬φ
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Dynamic Event Structure
(76) Mary awoke from a long sleep.
The state of being asleep has a duration, [i , j], who’s valuation isgated by the waking event at the “next state”, j + 1.
(77) e[i,j+1]HH
HHH
�����
e[i,j]1-α
e j+12
φ ¬φ
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Simple First-order Transition
(78) x ∶= y (ν-transition)“x assumes the value given to y in the next state.”⟨M, (i , i + 1), (u,u[x/u(y)])⟩ ⊧ x ∶= yiff ⟨M, i ,u⟩ ⊧ s1 ∧ ⟨M, i + 1,u[x/u(y)]⟩ ⊧ x = y
(79) e[i,i+1]HHH
HH
�����e i1
-x ∶= ye i+12
A(z) = x A(z) = y
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Simple First-order Transition
(80) x ∶= y (ν-transition)“x assumes the value given to y in the next state.”⟨M, (i , i + 1), (u,u[x/u(y)])⟩ ⊧ x ∶= yiff ⟨M, i ,u⟩ ⊧ s1 ∧ ⟨M, i + 1,u[x/u(y)]⟩ ⊧ x = y
(81) e[i,i+1]HHH
HH
�����e i1
-x ∶= ye i+12
A(z) = x A(z) = y
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Processes
With a ν-transition defined, a process can be viewed as simply aniteration of basic variable assignments and re-assignments:
(82)eHHHHH
�����
e1-ν e2 . . . -ν en
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Processes
With a ν-transition defined, a process can be viewed as simply aniteration of basic variable assignments and re-assignments:
(83)eHHHHH
�����
e1-ν e2 . . . -ν en
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Spatial Relations in Motion Predicates
Topological Path Expressionsarrive, leave, exit, land, take off
Orientation Path Expressionsclimb, descend
Topo-metric Path Expressionsapproach, near, distance oneself
Topo-metric orientation Expressionsjust below, just above
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Spatial Relations in Motion Predicates
Topological Path Expressionsarrive, leave, exit, land, take off
Orientation Path Expressionsclimb, descend
Topo-metric Path Expressionsapproach, near, distance oneself
Topo-metric orientation Expressionsjust below, just above
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Spatial Relations in Motion Predicates
Topological Path Expressionsarrive, leave, exit, land, take off
Orientation Path Expressionsclimb, descend
Topo-metric Path Expressionsapproach, near, distance oneself
Topo-metric orientation Expressionsjust below, just above
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Spatial Relations in Motion Predicates
Topological Path Expressionsarrive, leave, exit, land, take off
Orientation Path Expressionsclimb, descend
Topo-metric Path Expressionsapproach, near, distance oneself
Topo-metric orientation Expressionsjust below, just above
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Language Data
Manner construction languagesPath information is encoded in directional PPs and otheradjuncts, while verb encode manner of motion
English, German, Russian, Swedish, Chinese
Path construction languagesPath information is encoded in matrix verb, while adjunctsspecify manner of motionModern Greek, Spanish, Japanese, Turkish, Hindi
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Language Data
Manner construction languagesPath information is encoded in directional PPs and otheradjuncts, while verb encode manner of motionEnglish, German, Russian, Swedish, Chinese
Path construction languages
Path information is encoded in matrix verb, while adjunctsspecify manner of motionModern Greek, Spanish, Japanese, Turkish, Hindi
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Language Data
Manner construction languagesPath information is encoded in directional PPs and otheradjuncts, while verb encode manner of motionEnglish, German, Russian, Swedish, Chinese
Path construction languagesPath information is encoded in matrix verb, while adjunctsspecify manner of motionModern Greek, Spanish, Japanese, Turkish, Hindi
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Defining Motion (Talmy 1985)
(84) a. The event or situation involved in the change of location ;
b. The object (construed as a point or region) that isundergoing movement (the figure);c. The region (or path) traversed through the motion;d. A distinguished point or region of the path (the ground);e. The manner in which the change of location is carried out;f. The medium through which the motion takes place.
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Defining Motion (Talmy 1985)
(85) a. The event or situation involved in the change of location ;b. The object (construed as a point or region) that isundergoing movement (the figure);
c. The region (or path) traversed through the motion;d. A distinguished point or region of the path (the ground);e. The manner in which the change of location is carried out;f. The medium through which the motion takes place.
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Defining Motion (Talmy 1985)
(86) a. The event or situation involved in the change of location ;b. The object (construed as a point or region) that isundergoing movement (the figure);c. The region (or path) traversed through the motion;
d. A distinguished point or region of the path (the ground);e. The manner in which the change of location is carried out;f. The medium through which the motion takes place.
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Defining Motion (Talmy 1985)
(87) a. The event or situation involved in the change of location ;b. The object (construed as a point or region) that isundergoing movement (the figure);c. The region (or path) traversed through the motion;d. A distinguished point or region of the path (the ground);
e. The manner in which the change of location is carried out;f. The medium through which the motion takes place.
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Defining Motion (Talmy 1985)
(88) a. The event or situation involved in the change of location ;b. The object (construed as a point or region) that isundergoing movement (the figure);c. The region (or path) traversed through the motion;d. A distinguished point or region of the path (the ground);e. The manner in which the change of location is carried out;
f. The medium through which the motion takes place.
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Defining Motion (Talmy 1985)
(89) a. The event or situation involved in the change of location ;b. The object (construed as a point or region) that isundergoing movement (the figure);c. The region (or path) traversed through the motion;d. A distinguished point or region of the path (the ground);e. The manner in which the change of location is carried out;f. The medium through which the motion takes place.
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Manner Predicates
(90) SHHH
HH
�����
NP �figure
VP
John Vact
biked
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Path Predicates
(91) SHHH
HH
�����
NP �figure
VP
John
�����
Vtrans
departed
HHHHH
NP-ground
Boston
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Manner with Path Adjunction
(92) SHHH
HH
�����
NP �figure
VP
John Vact
biked
� ground XXXXXX
XXX
PP
transto the store
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Path with Manner Adjunction
(93) SHHH
HH
�����
NP �figure
VP
John
�����
Vtrans
departed
HHHHH
NP-ground
Boston
XXXXXX
XXX
PP
actby car
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Path+manner Predicates (Talmy 2000) 1/2
(94) a. Isabel climbed for 15 minutes.
b. Nicholas fell 100 meters.
(95) a. There is an action (e) bringing about an iteratednon-distinguished change of location;b. The figure undergoes this non-distinguished change oflocation;c. The figure creates (leaves) a path by virtue of the motion.d. The action (e) is performed in a certain manner.e. The path is oriented in an identified or distinguished way.
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Path+manner Predicates (Talmy 2000) 1/2
(96) a. Isabel climbed for 15 minutes.b. Nicholas fell 100 meters.
(97) a. There is an action (e) bringing about an iteratednon-distinguished change of location;b. The figure undergoes this non-distinguished change oflocation;c. The figure creates (leaves) a path by virtue of the motion.d. The action (e) is performed in a certain manner.e. The path is oriented in an identified or distinguished way.
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Path+manner Predicates (Talmy 2000) 1/2
(98) a. Isabel climbed for 15 minutes.b. Nicholas fell 100 meters.
(99) a. There is an action (e) bringing about an iteratednon-distinguished change of location;
b. The figure undergoes this non-distinguished change oflocation;c. The figure creates (leaves) a path by virtue of the motion.d. The action (e) is performed in a certain manner.e. The path is oriented in an identified or distinguished way.
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Path+manner Predicates (Talmy 2000) 1/2
(100) a. Isabel climbed for 15 minutes.b. Nicholas fell 100 meters.
(101) a. There is an action (e) bringing about an iteratednon-distinguished change of location;b. The figure undergoes this non-distinguished change oflocation;
c. The figure creates (leaves) a path by virtue of the motion.d. The action (e) is performed in a certain manner.e. The path is oriented in an identified or distinguished way.
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Path+manner Predicates (Talmy 2000) 1/2
(102) a. Isabel climbed for 15 minutes.b. Nicholas fell 100 meters.
(103) a. There is an action (e) bringing about an iteratednon-distinguished change of location;b. The figure undergoes this non-distinguished change oflocation;c. The figure creates (leaves) a path by virtue of the motion.
d. The action (e) is performed in a certain manner.e. The path is oriented in an identified or distinguished way.
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Path+manner Predicates (Talmy 2000) 1/2
(104) a. Isabel climbed for 15 minutes.b. Nicholas fell 100 meters.
(105) a. There is an action (e) bringing about an iteratednon-distinguished change of location;b. The figure undergoes this non-distinguished change oflocation;c. The figure creates (leaves) a path by virtue of the motion.d. The action (e) is performed in a certain manner.
e. The path is oriented in an identified or distinguished way.
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Path+manner Predicates (Talmy 2000) 1/2
(106) a. Isabel climbed for 15 minutes.b. Nicholas fell 100 meters.
(107) a. There is an action (e) bringing about an iteratednon-distinguished change of location;b. The figure undergoes this non-distinguished change oflocation;c. The figure creates (leaves) a path by virtue of the motion.d. The action (e) is performed in a certain manner.e. The path is oriented in an identified or distinguished way.
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Path+manner Predicates (Talmy 2000) 2/2
Unlike pure manner verbs, this class of predicates admits of twocompositional constructions with adjuncts.
(108) Manner of motion verb with path adjunct;John climbed to the summit.
(109) Manner of motion verb with path argument;John climbed the mountain.
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Path+manner Predicates (Talmy 2000) 2/2
Unlike pure manner verbs, this class of predicates admits of twocompositional constructions with adjuncts.
(110) Manner of motion verb with path adjunct;John climbed to the summit.
(111) Manner of motion verb with path argument;John climbed the mountain.
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Path+manner Predicates (Talmy 2000) 2/2
Unlike pure manner verbs, this class of predicates admits of twocompositional constructions with adjuncts.
(112) Manner of motion verb with path adjunct;John climbed to the summit.
(113) Manner of motion verb with path argument;John climbed the mountain.
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With Path Adjunct
(114) SHHH
HH
�����
NP �figure
VP
John Vact
climbed
� ground XXXXXX
XXX
PP
transto the summit
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With Path Argument
(115) SHHH
HH
�����
NP �figure
VP
John
�����
Vtrans
climbed
HHHHH
NP-path
the mountain
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Tracking Motion with RCC8: example of enter
AA
AA A
B B B B B
DC(A,B) PO(A,B) TPP(A,B) NTPP(A,B)EC(A,B)
t1 t2 t3 t4 t5
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Capturing Motion as Change in Spatial Relations
Dynamic Interval Temporal Logic
Path verbs designate a distinguished value in the change oflocation, from one state to another.The change in value is tested.
Manner of motion verbs iterate a change in location fromstate to state.The value is assigned and reassigned.
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56/1
Capturing Motion as Change in Spatial Relations
Dynamic Interval Temporal Logic
Path verbs designate a distinguished value in the change oflocation, from one state to another.
The change in value is tested.
Manner of motion verbs iterate a change in location fromstate to state.The value is assigned and reassigned.
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56/1
Capturing Motion as Change in Spatial Relations
Dynamic Interval Temporal Logic
Path verbs designate a distinguished value in the change oflocation, from one state to another.The change in value is tested.
Manner of motion verbs iterate a change in location fromstate to state.The value is assigned and reassigned.
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56/1
Capturing Motion as Change in Spatial Relations
Dynamic Interval Temporal Logic
Path verbs designate a distinguished value in the change oflocation, from one state to another.The change in value is tested.
Manner of motion verbs iterate a change in location fromstate to state.
The value is assigned and reassigned.
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56/1
Capturing Motion as Change in Spatial Relations
Dynamic Interval Temporal Logic
Path verbs designate a distinguished value in the change oflocation, from one state to another.The change in value is tested.
Manner of motion verbs iterate a change in location fromstate to state.The value is assigned and reassigned.
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Directed Motion
(116)
x≠y?↶
loc(z) = x e1νÐ→ loc(z) = y e2
When this test references the ordinal values on a scale, C, thisbecomes a directed ν-transition (ν), e.g., x ≼ y , x ≽ y .
(117) ν =dfC?↶ei
νÐ→ ei+1
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Directed Motion
(118)
x≠y?↶
loc(z) = x e1νÐ→ loc(z) = y e2
When this test references the ordinal values on a scale, C, thisbecomes a directed ν-transition (ν), e.g., x ≼ y , x ≽ y .
(119) ν =dfC?↶ei
νÐ→ ei+1
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Directed Motion
(120)
x≠y?↶
loc(z) = x e1νÐ→ loc(z) = y e2
When this test references the ordinal values on a scale, C, thisbecomes a directed ν-transition (ν), e.g., x ≼ y , x ≽ y .
(121) ν =dfC?↶ei
νÐ→ ei+1
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Directed Motion
(122) e[i,i+1]HHHHH
�����
x ≼ y?↶e i1
-x ∶= ye i+12
A(z) = x A(z) = y
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Change and Directed Motion
Manner-of-motion verbs introduce an assignment of a locationvalue:loc(x) ∶= y ; y ∶= z
Directed motion introduces a dimension that is measuredagainst:d(b, y) < d(b, z)Path verbs introduce a pair of tests:¬φ? . . . φ?
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Change and Directed Motion
Manner-of-motion verbs introduce an assignment of a locationvalue:loc(x) ∶= y ; y ∶= z
Directed motion introduces a dimension that is measuredagainst:d(b, y) < d(b, z)
Path verbs introduce a pair of tests:¬φ? . . . φ?
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Change and Directed Motion
Manner-of-motion verbs introduce an assignment of a locationvalue:loc(x) ∶= y ; y ∶= z
Directed motion introduces a dimension that is measuredagainst:d(b, y) < d(b, z)Path verbs introduce a pair of tests:¬φ? . . . φ?
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Change and the Trail it Leaves
The execution of a change in the value to an attribute A foran object x leaves a trail, τ .
For motion, this trail is the created object of the path p whichthe mover travels on;
For creation predicates, this trail is the created object broughtabout by order-preserving transformations as executed in thedirected process above.
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60/1
Change and the Trail it Leaves
The execution of a change in the value to an attribute A foran object x leaves a trail, τ .
For motion, this trail is the created object of the path p whichthe mover travels on;
For creation predicates, this trail is the created object broughtabout by order-preserving transformations as executed in thedirected process above.
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60/1
Change and the Trail it Leaves
The execution of a change in the value to an attribute A foran object x leaves a trail, τ .
For motion, this trail is the created object of the path p whichthe mover travels on;
For creation predicates, this trail is the created object broughtabout by order-preserving transformations as executed in thedirected process above.
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60/1
Change and the Trail it Leaves
The execution of a change in the value to an attribute A foran object x leaves a trail, τ .
For motion, this trail is the created object of the path p whichthe mover travels on;
For creation predicates, this trail is the created object broughtabout by order-preserving transformations as executed in thedirected process above.
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Motion Leaving a Trail
(123) Motion leaving a trail:a. Assign a value, y , to the location of the moving object, x .
loc(x) ∶= y
b. Name this value b (this will be the beginning of themovement);
b ∶= yc. Initiate a path p that is a list, starting at b;
p ∶= (b)d. Then, reassign the value of y to z , where y ≠ z
y ∶= z , y ≠ ze. Add the reassigned value of y to path p;
p ∶= (p, z)f. Kleene iterate steps (d) and (e).
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Motion Leaving a Trail
(124) Motion leaving a trail:a. Assign a value, y , to the location of the moving object, x .
loc(x) ∶= yb. Name this value b (this will be the beginning of themovement);
b ∶= y
c. Initiate a path p that is a list, starting at b;p ∶= (b)
d. Then, reassign the value of y to z , where y ≠ zy ∶= z , y ≠ z
e. Add the reassigned value of y to path p;p ∶= (p, z)
f. Kleene iterate steps (d) and (e).
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Motion Leaving a Trail
(125) Motion leaving a trail:a. Assign a value, y , to the location of the moving object, x .
loc(x) ∶= yb. Name this value b (this will be the beginning of themovement);
b ∶= yc. Initiate a path p that is a list, starting at b;
p ∶= (b)
d. Then, reassign the value of y to z , where y ≠ zy ∶= z , y ≠ z
e. Add the reassigned value of y to path p;p ∶= (p, z)
f. Kleene iterate steps (d) and (e).
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Motion Leaving a Trail
(126) Motion leaving a trail:a. Assign a value, y , to the location of the moving object, x .
loc(x) ∶= yb. Name this value b (this will be the beginning of themovement);
b ∶= yc. Initiate a path p that is a list, starting at b;
p ∶= (b)d. Then, reassign the value of y to z , where y ≠ z
y ∶= z , y ≠ z
e. Add the reassigned value of y to path p;p ∶= (p, z)
f. Kleene iterate steps (d) and (e).
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Motion Leaving a Trail
(127) Motion leaving a trail:a. Assign a value, y , to the location of the moving object, x .
loc(x) ∶= yb. Name this value b (this will be the beginning of themovement);
b ∶= yc. Initiate a path p that is a list, starting at b;
p ∶= (b)d. Then, reassign the value of y to z , where y ≠ z
y ∶= z , y ≠ ze. Add the reassigned value of y to path p;
p ∶= (p, z)f. Kleene iterate steps (d) and (e).
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Motion Leaving a Trail
(128) Motion leaving a trail:a. Assign a value, y , to the location of the moving object, x .
loc(x) ∶= yb. Name this value b (this will be the beginning of themovement);
b ∶= yc. Initiate a path p that is a list, starting at b;
p ∶= (b)d. Then, reassign the value of y to z , where y ≠ z
y ∶= z , y ≠ ze. Add the reassigned value of y to path p;
p ∶= (p, z)f. Kleene iterate steps (d) and (e).
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Quantifying the Resulting Trail
l1@t1 l2@t2 l3@t3
p=(b,l2,l3)p=(b,l2)p=(b)
Figure: Directed Motion leaving a Trail
(129) a. The ball rolled 20 feet.∃p∃x[[roll(x ,p) ∧ ball(x) ∧ length(p) = [20, foot]]
b. John biked for 5 miles.∃p[[bike(j ,p) ∧ length(p) = [5,mile]]
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Quantifying the Resulting Trail
l1@t1 l2@t2 l3@t3
p=(b,l2,l3)p=(b,l2)p=(b)
Figure: Directed Motion leaving a Trail
(130) a. The ball rolled 20 feet.∃p∃x[[roll(x ,p) ∧ ball(x) ∧ length(p) = [20, foot]]
b. John biked for 5 miles.∃p[[bike(j ,p) ∧ length(p) = [5,mile]]
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Quantifying the Resulting Trail
l1@t1 l2@t2 l3@t3
p=(b,l2,l3)p=(b,l2)p=(b)
Figure: Directed Motion leaving a Trail
(131) a. The ball rolled 20 feet.∃p∃x[[roll(x ,p) ∧ ball(x) ∧ length(p) = [20, foot]]
b. John biked for 5 miles.∃p[[bike(j ,p) ∧ length(p) = [5,mile]]
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Generalizing the Path Metaphor
We generalize the Path Metaphor to the analysis of thecreation predicates.
We analyze creation predicates as predicates referencing twotypes of scales.
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Generalizing the Path Metaphor
We generalize the Path Metaphor to the analysis of thecreation predicates.
We analyze creation predicates as predicates referencing twotypes of scales.
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Type of Creation Verbs
(132) a. John wrote a letter.
b. Sophie wrote for hours.c. Sophie wrote for an hour.
(133) a. John built a wooden bookcase.b. *John built for weeks.
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Type of Creation Verbs
(134) a. John wrote a letter.b. Sophie wrote for hours.
c. Sophie wrote for an hour.
(135) a. John built a wooden bookcase.b. *John built for weeks.
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Type of Creation Verbs
(136) a. John wrote a letter.b. Sophie wrote for hours.c. Sophie wrote for an hour.
(137) a. John built a wooden bookcase.b. *John built for weeks.
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Linguistic View on Scales
Some verbs expressing change are associated with a scalewhile others are not (scalar vs. non-scalar change).
There is a single scale domain (ordinal scale), which varieswith respect to mereological complexity (two-point vs.multi-point) and specificity of the end point (bounded vs.unbounded).
Scales are classified on the basis of the attribute beingmeasured:
PROPERTY SCALES: often found with change of state verbs.PATH SCALES: most often found with directed motion verbs.EXTENT SCALES: most often found with incremental themeverbs.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 170: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/170.jpg)
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Linguistic View on Scales
Some verbs expressing change are associated with a scalewhile others are not (scalar vs. non-scalar change).
There is a single scale domain (ordinal scale), which varieswith respect to mereological complexity (two-point vs.multi-point) and specificity of the end point (bounded vs.unbounded).
Scales are classified on the basis of the attribute beingmeasured:
PROPERTY SCALES: often found with change of state verbs.PATH SCALES: most often found with directed motion verbs.EXTENT SCALES: most often found with incremental themeverbs.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 171: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/171.jpg)
65/1
Linguistic View on Scales
Some verbs expressing change are associated with a scalewhile others are not (scalar vs. non-scalar change).
There is a single scale domain (ordinal scale), which varieswith respect to mereological complexity (two-point vs.multi-point) and specificity of the end point (bounded vs.unbounded).
Scales are classified on the basis of the attribute beingmeasured:
PROPERTY SCALES: often found with change of state verbs.PATH SCALES: most often found with directed motion verbs.EXTENT SCALES: most often found with incremental themeverbs.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 172: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/172.jpg)
65/1
Linguistic View on Scales
Some verbs expressing change are associated with a scalewhile others are not (scalar vs. non-scalar change).
There is a single scale domain (ordinal scale), which varieswith respect to mereological complexity (two-point vs.multi-point) and specificity of the end point (bounded vs.unbounded).
Scales are classified on the basis of the attribute beingmeasured:
PROPERTY SCALES: often found with change of state verbs.
PATH SCALES: most often found with directed motion verbs.EXTENT SCALES: most often found with incremental themeverbs.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 173: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/173.jpg)
65/1
Linguistic View on Scales
Some verbs expressing change are associated with a scalewhile others are not (scalar vs. non-scalar change).
There is a single scale domain (ordinal scale), which varieswith respect to mereological complexity (two-point vs.multi-point) and specificity of the end point (bounded vs.unbounded).
Scales are classified on the basis of the attribute beingmeasured:
PROPERTY SCALES: often found with change of state verbs.PATH SCALES: most often found with directed motion verbs.
EXTENT SCALES: most often found with incremental themeverbs.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 174: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/174.jpg)
65/1
Linguistic View on Scales
Some verbs expressing change are associated with a scalewhile others are not (scalar vs. non-scalar change).
There is a single scale domain (ordinal scale), which varieswith respect to mereological complexity (two-point vs.multi-point) and specificity of the end point (bounded vs.unbounded).
Scales are classified on the basis of the attribute beingmeasured:
PROPERTY SCALES: often found with change of state verbs.PATH SCALES: most often found with directed motion verbs.EXTENT SCALES: most often found with incremental themeverbs.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 175: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/175.jpg)
66/1
Linguistic View on Scales
Various scholars have observed that for certain scalarexpressions the scale appears not to be supplied by the verb.
For example, Rappaport Hovav 2008, Kennedy 2009 claimthat “the scale which occurs with incremental theme verbs(extent scale) is not directly encoded in the verb, but ratherprovided by the referent of the direct object”.
This has lead them to the assumption that when nominalreference plays a role in measuring the change, V is notassociated with a scale (denoting a non-scalar change).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 176: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/176.jpg)
66/1
Linguistic View on Scales
Various scholars have observed that for certain scalarexpressions the scale appears not to be supplied by the verb.
For example, Rappaport Hovav 2008, Kennedy 2009 claimthat “the scale which occurs with incremental theme verbs(extent scale) is not directly encoded in the verb, but ratherprovided by the referent of the direct object”.
This has lead them to the assumption that when nominalreference plays a role in measuring the change, V is notassociated with a scale (denoting a non-scalar change).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 177: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/177.jpg)
66/1
Linguistic View on Scales
Various scholars have observed that for certain scalarexpressions the scale appears not to be supplied by the verb.
For example, Rappaport Hovav 2008, Kennedy 2009 claimthat “the scale which occurs with incremental theme verbs(extent scale) is not directly encoded in the verb, but ratherprovided by the referent of the direct object”.
This has lead them to the assumption that when nominalreference plays a role in measuring the change, V is notassociated with a scale (denoting a non-scalar change).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 178: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/178.jpg)
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Challenge for Scalar Models
Identify the source(s) of the measure of change.
What is the basic classification of the predicate with respectto its scalar structure?
What is the exact contribution of each member of thelinguistic expression to the measurement of the change?
What is the role of nominal reference in aspectualcomposition?
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 179: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/179.jpg)
67/1
Challenge for Scalar Models
Identify the source(s) of the measure of change.
What is the basic classification of the predicate with respectto its scalar structure?
What is the exact contribution of each member of thelinguistic expression to the measurement of the change?
What is the role of nominal reference in aspectualcomposition?
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 180: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/180.jpg)
67/1
Challenge for Scalar Models
Identify the source(s) of the measure of change.
What is the basic classification of the predicate with respectto its scalar structure?
What is the exact contribution of each member of thelinguistic expression to the measurement of the change?
What is the role of nominal reference in aspectualcomposition?
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 181: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/181.jpg)
67/1
Challenge for Scalar Models
Identify the source(s) of the measure of change.
What is the basic classification of the predicate with respectto its scalar structure?
What is the exact contribution of each member of thelinguistic expression to the measurement of the change?
What is the role of nominal reference in aspectualcomposition?
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 182: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/182.jpg)
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How Language Encodes Scalar InformationPustejovsky and Jezek 2012
Verbs reference a specific scale.
We measure change according to this scale domain.
Scales are introduced by predication (encoded in a verb).
Scales can be introduced by composition (functionapplication).
Verbs may reference multiple scales.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 183: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/183.jpg)
68/1
How Language Encodes Scalar InformationPustejovsky and Jezek 2012
Verbs reference a specific scale.
We measure change according to this scale domain.
Scales are introduced by predication (encoded in a verb).
Scales can be introduced by composition (functionapplication).
Verbs may reference multiple scales.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 184: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/184.jpg)
68/1
How Language Encodes Scalar InformationPustejovsky and Jezek 2012
Verbs reference a specific scale.
We measure change according to this scale domain.
Scales are introduced by predication (encoded in a verb).
Scales can be introduced by composition (functionapplication).
Verbs may reference multiple scales.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 185: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/185.jpg)
68/1
How Language Encodes Scalar InformationPustejovsky and Jezek 2012
Verbs reference a specific scale.
We measure change according to this scale domain.
Scales are introduced by predication (encoded in a verb).
Scales can be introduced by composition (functionapplication).
Verbs may reference multiple scales.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 186: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/186.jpg)
68/1
How Language Encodes Scalar InformationPustejovsky and Jezek 2012
Verbs reference a specific scale.
We measure change according to this scale domain.
Scales are introduced by predication (encoded in a verb).
Scales can be introduced by composition (functionapplication).
Verbs may reference multiple scales.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 187: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/187.jpg)
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Scale Theory: Stevens (1946), Krantz et al (1971)
Nominal scales: composed of sets of categories in whichobjects are classified;
Ordinal scales: indicate the order of the data according tosome criterion (a partial ordering over a defined domain).They tell nothing about the distance between units of thescale.
Interval scales: have equal distances between scale units andpermit statements to be made about those units as comparedto other units; there is no zero. Interval scales permit astatement of “more than” or “less than” but not of “howmany times more.”
Ratio scales: have equal distances between scale units as wellas a zero value. Most measures encountered in daily discourseare based on a ratio scale.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 188: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/188.jpg)
69/1
Scale Theory: Stevens (1946), Krantz et al (1971)
Nominal scales: composed of sets of categories in whichobjects are classified;
Ordinal scales: indicate the order of the data according tosome criterion (a partial ordering over a defined domain).They tell nothing about the distance between units of thescale.
Interval scales: have equal distances between scale units andpermit statements to be made about those units as comparedto other units; there is no zero. Interval scales permit astatement of “more than” or “less than” but not of “howmany times more.”
Ratio scales: have equal distances between scale units as wellas a zero value. Most measures encountered in daily discourseare based on a ratio scale.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 189: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/189.jpg)
69/1
Scale Theory: Stevens (1946), Krantz et al (1971)
Nominal scales: composed of sets of categories in whichobjects are classified;
Ordinal scales: indicate the order of the data according tosome criterion (a partial ordering over a defined domain).They tell nothing about the distance between units of thescale.
Interval scales: have equal distances between scale units andpermit statements to be made about those units as comparedto other units; there is no zero. Interval scales permit astatement of “more than” or “less than” but not of “howmany times more.”
Ratio scales: have equal distances between scale units as wellas a zero value. Most measures encountered in daily discourseare based on a ratio scale.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 190: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/190.jpg)
69/1
Scale Theory: Stevens (1946), Krantz et al (1971)
Nominal scales: composed of sets of categories in whichobjects are classified;
Ordinal scales: indicate the order of the data according tosome criterion (a partial ordering over a defined domain).They tell nothing about the distance between units of thescale.
Interval scales: have equal distances between scale units andpermit statements to be made about those units as comparedto other units; there is no zero. Interval scales permit astatement of “more than” or “less than” but not of “howmany times more.”
Ratio scales: have equal distances between scale units as wellas a zero value. Most measures encountered in daily discourseare based on a ratio scale.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 191: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/191.jpg)
69/1
Scale Theory: Stevens (1946), Krantz et al (1971)
Nominal scales: composed of sets of categories in whichobjects are classified;
Ordinal scales: indicate the order of the data according tosome criterion (a partial ordering over a defined domain).They tell nothing about the distance between units of thescale.
Interval scales: have equal distances between scale units andpermit statements to be made about those units as comparedto other units; there is no zero. Interval scales permit astatement of “more than” or “less than” but not of “howmany times more.”
Ratio scales: have equal distances between scale units as wellas a zero value. Most measures encountered in daily discourseare based on a ratio scale.
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 192: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/192.jpg)
70/1
Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Use multiple scalar domains and the “change as program”metaphor proposed in Dynamic Interval Temporal Logic(DITL, Pustejovsky 2011, Pustejovsky & Moszkowicz 2011).
Define change as a transformation of state (cf. Galton, 2000,Naumann 2001) involving two possible kinds of result,depending on the change program which is executed:
If the program is “change by testing”, Result refers to thecurrent value of the attribute after an event (e.g., the housein build a house, the apple in eat an apple, etc.).
If the program is “change by assignment”, Result refers to therecord or trail of the change (e.g., the path of a walking, thestuff written in writing, etc.).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 193: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/193.jpg)
70/1
Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Use multiple scalar domains and the “change as program”metaphor proposed in Dynamic Interval Temporal Logic(DITL, Pustejovsky 2011, Pustejovsky & Moszkowicz 2011).
Define change as a transformation of state (cf. Galton, 2000,Naumann 2001) involving two possible kinds of result,depending on the change program which is executed:
If the program is “change by testing”, Result refers to thecurrent value of the attribute after an event (e.g., the housein build a house, the apple in eat an apple, etc.).
If the program is “change by assignment”, Result refers to therecord or trail of the change (e.g., the path of a walking, thestuff written in writing, etc.).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 194: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/194.jpg)
70/1
Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Use multiple scalar domains and the “change as program”metaphor proposed in Dynamic Interval Temporal Logic(DITL, Pustejovsky 2011, Pustejovsky & Moszkowicz 2011).
Define change as a transformation of state (cf. Galton, 2000,Naumann 2001) involving two possible kinds of result,depending on the change program which is executed:
If the program is “change by testing”, Result refers to thecurrent value of the attribute after an event (e.g., the housein build a house, the apple in eat an apple, etc.).
If the program is “change by assignment”, Result refers to therecord or trail of the change (e.g., the path of a walking, thestuff written in writing, etc.).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 195: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/195.jpg)
70/1
Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Use multiple scalar domains and the “change as program”metaphor proposed in Dynamic Interval Temporal Logic(DITL, Pustejovsky 2011, Pustejovsky & Moszkowicz 2011).
Define change as a transformation of state (cf. Galton, 2000,Naumann 2001) involving two possible kinds of result,depending on the change program which is executed:
If the program is “change by testing”, Result refers to thecurrent value of the attribute after an event (e.g., the housein build a house, the apple in eat an apple, etc.).
If the program is “change by assignment”, Result refers to therecord or trail of the change (e.g., the path of a walking, thestuff written in writing, etc.).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 196: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/196.jpg)
71/1
Scale shiftingPustejovsky and Jezek 2012
Scale Shifting is mapping from one scalar domain to anotherscalar domain.ordinal ⇒ nominalnominal ⇒ ordinalordinal ⇒ interval. . .
Scale Shifting may be triggered by:
Adjuncts: for/in adverbials, degree modifiers, resultativephrases, etc.
Arguments (selected vs. non-selected, semantic typing,quantification).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 197: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/197.jpg)
71/1
Scale shiftingPustejovsky and Jezek 2012
Scale Shifting is mapping from one scalar domain to anotherscalar domain.ordinal ⇒ nominalnominal ⇒ ordinalordinal ⇒ interval. . .
Scale Shifting may be triggered by:
Adjuncts: for/in adverbials, degree modifiers, resultativephrases, etc.
Arguments (selected vs. non-selected, semantic typing,quantification).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 198: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/198.jpg)
71/1
Scale shiftingPustejovsky and Jezek 2012
Scale Shifting is mapping from one scalar domain to anotherscalar domain.ordinal ⇒ nominalnominal ⇒ ordinalordinal ⇒ interval. . .
Scale Shifting may be triggered by:
Adjuncts: for/in adverbials, degree modifiers, resultativephrases, etc.
Arguments (selected vs. non-selected, semantic typing,quantification).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 199: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/199.jpg)
71/1
Scale shiftingPustejovsky and Jezek 2012
Scale Shifting is mapping from one scalar domain to anotherscalar domain.ordinal ⇒ nominalnominal ⇒ ordinalordinal ⇒ interval. . .
Scale Shifting may be triggered by:
Adjuncts: for/in adverbials, degree modifiers, resultativephrases, etc.
Arguments (selected vs. non-selected, semantic typing,quantification).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 200: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/200.jpg)
71/1
Scale shiftingPustejovsky and Jezek 2012
Scale Shifting is mapping from one scalar domain to anotherscalar domain.ordinal ⇒ nominalnominal ⇒ ordinalordinal ⇒ interval. . .
Scale Shifting may be triggered by:
Adjuncts: for/in adverbials, degree modifiers, resultativephrases, etc.
Arguments (selected vs. non-selected, semantic typing,quantification).
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 201: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/201.jpg)
72/1
Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Accomplishments are Lexically Encoded Tests.John built a house.
Test-predicates for creation verbs
build selects for a quantized individual as argument.
λzλyλx[build(x , z , y)]
An ordinal scale drives the incremental creation forward
A nominal scale acts as a test for completion (telicity)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Accomplishments are Lexically Encoded Tests.
John built a house.
Test-predicates for creation verbs
build selects for a quantized individual as argument.
λzλyλx[build(x , z , y)]
An ordinal scale drives the incremental creation forward
A nominal scale acts as a test for completion (telicity)
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Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Accomplishments are Lexically Encoded Tests.John built a house.
Test-predicates for creation verbs
build selects for a quantized individual as argument.
λzλyλx[build(x , z , y)]
An ordinal scale drives the incremental creation forward
A nominal scale acts as a test for completion (telicity)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Accomplishments are Lexically Encoded Tests.John built a house.
Test-predicates for creation verbs
build selects for a quantized individual as argument.
λzλyλx[build(x , z , y)]
An ordinal scale drives the incremental creation forward
A nominal scale acts as a test for completion (telicity)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Accomplishments are Lexically Encoded Tests.John built a house.
Test-predicates for creation verbs
build selects for a quantized individual as argument.
λzλyλx[build(x , z , y)]
An ordinal scale drives the incremental creation forward
A nominal scale acts as a test for completion (telicity)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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72/1
Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Accomplishments are Lexically Encoded Tests.John built a house.
Test-predicates for creation verbs
build selects for a quantized individual as argument.
λzλyλx[build(x , z , y)]
An ordinal scale drives the incremental creation forward
A nominal scale acts as a test for completion (telicity)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Accomplishments are Lexically Encoded Tests.John built a house.
Test-predicates for creation verbs
build selects for a quantized individual as argument.
λzλyλx[build(x , z , y)]
An ordinal scale drives the incremental creation forward
A nominal scale acts as a test for completion (telicity)
Pustejovsky and Jezek GL: Integrating Distributional Methods
![Page 208: Generative Lexicon: Integrating Theoretical and ...gl-tutorials.org/.../uploads/2017/07/2017-Lecture3-July-19th-as-gven-… · July 17:Introduction to GL and Distributional Analysis](https://reader034.vdocuments.us/reader034/viewer/2022051913/60040df98e31da6f4904b1ae/html5/thumbnails/208.jpg)
72/1
Generalizing the Path Metaphor to Creation PredicatesPustejovsky and Jezek 2012
Accomplishments are Lexically Encoded Tests.John built a house.
Test-predicates for creation verbs
build selects for a quantized individual as argument.
λzλyλx[build(x , z , y)]
An ordinal scale drives the incremental creation forward
A nominal scale acts as a test for completion (telicity)
Pustejovsky and Jezek GL: Integrating Distributional Methods
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Incremental Theme and Parallel Scales
A B C D E
Mary is building a table.
Change is measured over an ordinal scale.
Trail, τ is null.
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Incremental Theme and Parallel Scales
AB C D E
Mary is building a table.
Change is measured over an ordinal scale.
Trail, τ = [A].
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Incremental Theme and Parallel Scales
A BC D E
Mary is building a table.
Change is measured over an ordinal scale.
Trail, τ = [A,B]
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Incremental Theme and Parallel Scales
A BC
D E
Mary is building a table.
Change is measured over an ordinal scale.
Trail, τ = [A,B,C ]
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Incremental Theme and Parallel Scales
A BC D
E
Mary is building a table.
Change is measured over an ordinal scale.
Trail, τ = [A,B,C ,D]
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Incremental Theme and Parallel Scales
A BC D
E
Mary built a table.
Change is measured over a nominal scale.
Trail, τ = [A,B,C ,D,E ]; table(τ).
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Accomplishments
(138) a. John built a table.b. Mary walked to the store.
build(x , z , y) build(x , z , y)+ build(x , z , y), y = v¬table(v) table(v) ⟨i,j⟩
Table: Accomplishment: parallel tracks of changes
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Dynamic Event Structure
(139) eHHHHH
�����
e1 -αe2
¬φ?
φ?↶
-
φ
HHHHH
�����
e11-α
e12 . . . -α e1k
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Parallel Scales define an Accomplishment
(140) eHHHHH
�����
e1 -build e2
¬table?
table?↶
-
table(v)
HHHHH
�����
e11-builde12 . . . -build e1k
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Lab on identification of event type properties in corpora
Choose three target verbs. State your hypothesis regardingthe event type associated with the verbs wrt to the extendedin time vs instantaneous dimension.
Count the co-occurrences of the verbs in the raws of thematrix with the expressions in the columns in the BNC usingthe SkE.
You can use the context search - setting the window, or refineyour search with CQL or Word Sketches.
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Lab on detection of event type properties in corpora
For the ”for x time” expressions, you can use the followingregular expression:[lemma = ”for”][]{0,1}[lemma =”instant ∣second ∣minute ∣hour ∣day ∣week ∣month∣year”]Fill the cooccurrence counts in last column of the matrix andrank the verbs accordingly.
Select 1 concordance for each verb which constitutes anexample of event-type shiftings in context.
Summarize your results.
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Lab on detection of event type properties in corpora
Co-occurrence matrixes detecting extended vs. instantaneousevents
suddenly still for x time finishV total occ
happenoccur
breatheappear
diesleepwalkrun
laughwake up
falldevelopwatchfreeze
Ongoing work E. Jezek, M. Sadrzadeh and E. Ponti (unpublished).
Pustejovsky and Jezek GL: Integrating Distributional Methods