3 research outputs found
Covering and separation for logical fragments with modular predicates
For every class of word languages, one may associate a decision
problem called -separation. Given two regular languages, it asks
whether there exists a third language in containing the first
language, while being disjoint from the second one. Usually, finding an
algorithm deciding -separation yields a deep insight on
.
We consider classes defined by fragments of first-order logic. Given such a
fragment, one may often build a larger class by adding more predicates to its
signature. In the paper, we investigate the operation of enriching signatures
with modular predicates. Our main theorem is a generic transfer result for this
construction. Informally, we show that when a logical fragment is equipped with
a signature containing the successor predicate, separation for the stronger
logic enriched with modular predicates reduces to separation for the original
logic. This result actually applies to a more general decision problem, called
the covering problem
Covering and separation for logical fragments with modular predicates
For every class of word languages, one may associate a decision
problem called -separation. Given two regular languages, it asks
whether there exists a third language in containing the first
language, while being disjoint from the second one. Usually, finding an
algorithm deciding -separation yields a deep insight on
.
We consider classes defined by fragments of first-order logic. Given such a
fragment, one may often build a larger class by adding more predicates to its
signature. In the paper, we investigate the operation of enriching signatures
with modular predicates. Our main theorem is a generic transfer result for this
construction. Informally, we show that when a logical fragment is equipped with
a signature containing the successor predicate, separation for the stronger
logic enriched with modular predicates reduces to separation for the original
logic. This result actually applies to a more general decision problem, called
the covering problem