1 research outputs found
Taking Primitive Optimality Theory Beyond the Finite State
Primitive Optimality Theory (OTP) (Eisner, 1997a; Albro, 1998), a
computational model of Optimality Theory (Prince and Smolensky, 1993), employs
a finite state machine to represent the set of active candidates at each stage
of an Optimality Theoretic derivation, as well as weighted finite state
machines to represent the constraints themselves. For some purposes, however,
it would be convenient if the set of candidates were limited by some set of
criteria capable of being described only in a higher-level grammar formalism,
such as a Context Free Grammar, a Context Sensitive Grammar, or a Multiple
Context Free Grammar (Seki et al., 1991). Examples include reduplication and
phrasal stress models. Here we introduce a mechanism for OTP-like Optimality
Theory in which the constraints remain weighted finite state machines, but sets
of candidates are represented by higher-level grammars. In particular, we use
multiple context-free grammars to model reduplication in the manner of
Correspondence Theory (McCarthy and Prince, 1995), and develop an extended
version of the Earley Algorithm (Earley, 1970) to apply the constraints to a
reduplicating candidate set.Comment: 11 pages, 5 figures, worksho