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Temporal Constraints

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Title: Temporal Constraints


1
  • Temporal Constraints
  • Time and Time Again The Many Ways to Represent
    Time
  • James F Allen

2
  • Overview
  • Various representation techniques
  • Based on Dating Schemes
  • Constraint Propagation Approaches
  • Duration based approaches
  • Temporal Knowledge Representation Systems
  • Conclusion

3
  • Representation Based on Dating Schemes
  • Absolute dating
  • When events are instantaneous and their complete
    linear order is known.
  • A time stamp is associated with each event eg.
    secminhour
  • Time comparisons are reduced to numerical
    calculations. Duration between events can be
    calculated.
  • Domains
  • Database transactions using a central clock
  • Appointment scheduling

4
  • Pseudo Dates
  • Assign a number to each event such that numerical
    ordering reflects the linear ordering.
  • Used when absolute time is unknown, but the
    linear order is known.
  • (e1, T1)gt event e1 occurs at time T1
  • (e2, T2) gt event e2 occurs at time T2
  • If e3 occurs b/w e1 and e2 then
  • (e3, (T1T2)/2)
  • Duration information is lost.

5
  • More complex representations
  • Events that occur over a range but still remain
    instantaneous.
  • An event is associated with a pair (e1,l1)
  • This representation does not work with
    pseudo-times

6
  • Constraint Propagation Approach
  • A graph-based representation.
  • Arcs gt relations
  • Nodes gt time points (events)
  • Can represent binary relations (e1lte2)
  • Cannot represent disjunctions involving more than
    two time points
  • (e1lte2 OR e2lte3)
  • When new information is added, it may constraint
    existing information.
  • Constraints based on transitivity can be used to
    update graph incrementally.

7
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8
  • Constraint Propagation Approach (cont.)
  • Representation becomes complex when events take
    place over intervals. (non-instantaneous)
  • Some relationships cannot be captured by
    point-based representations.
  • E1(e1,l1) and E2(e2, l2)
  • E1 before E2 gt (l1lte2)
  • E1 overlaps E2 gt (e1 lt e2) (e2 lt l1) (l1 lt
    l2)

9
  • Constraint Propagation Approach (cont.)
  • Allens constraint propagation algorithm
  • Based on intervals, rather than points.

10
  • Constraint Propagation Approach (cont.)
  • Ability to capture 213 constraints compared to
    181 expressible by point-based representation.
  • A NP-complete algorithm exists that can handle
    such a representation.
  • Allen developed a heuristic O(n3) algorithm. This
    algorithm is complete with respect to any
    situation that can be expressed as point-based
    constraints.
  • The algorithm also handles more complex
    situations but without the guarantee of
    completeness.

11
  • Duration based representations
  • This representation makes use of duration
    information.
  • Makes use of an acyclic directed graph that has
    a well defined start and end node.
  • Each node represents an event and the arcs
    indicate the associated duration.
  • Each node indicates the earliest and latest
    starting time.
  • This technique is very useful for scheduling
    applications, for which it was initially
    developed.

12
Duration based representations (cont.)
13
  • Duration based representations (cont.)
  • This technique is useful for domains where
    duration is known.
  • One unknown duration can render this technique
    useless.
  • Partial ordering of endpoints cannot be
    represented by this technique.

14
  • Duration based representations (cont.)
  • Dean and McDermott developed a similar
    representation.
  • Rather than using durations of events as a base,
    they represent all information as durations
    between time points.
  • More qualitative information can be described by
    using infinity as a value for unknown duration
    values.

15
  • Temporal Logic
  • For a temporal representation to be successful,
    it must be embedded within a more general
    representation that can encode general assertions
    about the world.
  • Green(frog1,t1)
  • frog1 is green at time t1
  • frog1 is green over the time interval t1
  • This technique does not work with all predicates
  • sun rose over the interval t1 is not equivalent
    to saying sun rose at every interval in the
    interval t1.
  • Such predicates take intervals as
    arguments----Rise(t1,t2)

16
  • Temporal Knowledge Representation Systems
  • The RHET system developed at Rochester
    integrates a temporal reasoner to a general
    purpose reasoning system.
  • It is a horn based AI representation language
    that has as a subcomponent the TIMELOGIC temporal
    reasoning system developed by Koomen and based on
    Allen's interval logic.
  • RHET is a hybrid system, rather than using a
    single uniform proof technique, each predicate
    defined in RHET could potentially use its own
    specialized techniques for computing its
    truthhood.
  • A(x,y) B(x) gt P(x,y)

17
  • Temporal Knowledge Representation Systems (cont.)
  • All temporal relations are represented as
    TimeRel t1 r t2
  • If all variables are bounded then the temporal
    database is used directly.
  • TIMELOGIC determines set of all possible bindings
    and this is passed to RHET.
  • Once all the variables are bounded then this
    information is passed to TIMELOGIC which
    evaluates the consequences of this binding using
    constraint propagation.

18
  • Conclusion
  • Persistence problem
  • If P is true over some time interval T1, what can
    be said about P being true after T1.
  • Techniques designed to tackle this problem are
    crude and depend on assumptions.
  • Current techniques on time representation work
    well in select domains.
  • Not effective in domains where agent has limited
    knowledge of the world.
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