5 research outputs found
Nondeterministic State Complexity for Suffix-Free Regular Languages
We investigate the nondeterministic state complexity of basic operations for
suffix-free regular languages. The nondeterministic state complexity of an
operation is the number of states that are necessary and sufficient in the
worst-case for a minimal nondeterministic finite-state automaton that accepts
the language obtained from the operation. We consider basic operations
(catenation, union, intersection, Kleene star, reversal and complementation)
and establish matching upper and lower bounds for each operation. In the case
of complementation the upper and lower bounds differ by an additive constant of
two.Comment: In Proceedings DCFS 2010, arXiv:1008.127
Complexity in Prefix-Free Regular Languages
We examine deterministic and nondeterministic state complexities of regular
operations on prefix-free languages. We strengthen several results by providing
witness languages over smaller alphabets, usually as small as possible. We next
provide the tight bounds on state complexity of symmetric difference, and
deterministic and nondeterministic state complexity of difference and cyclic
shift of prefix-free languages.Comment: In Proceedings DCFS 2010, arXiv:1008.127
State Complexity of Combined Operations on Finite Languages
State complexity is a descriptive complexity measure for regular languages. It is a fundamental topic in automata and formal language theory. The state complexity of a regular language is the number of states in the minimal complete deterministic finite automaton accepting the language. During the last few decades, many publications have focused and studied the state complexity of many individual as well as combined operations on regular languages. Also, the state complexity of some basic operations on finite languages has been studied. But until now there has been no study on the state complexity of combined operations on finite languages.
In this thesis, we will first study the state complexity of the combined operation, star of union, on finite languages and give an exact bound. Then we will investigate the state complexity of star of catenation and show its approximation with a good ratio bound and finally, we will prove an upper bound for star of intersection