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Related papers: Most Complex Regular Right-Ideal Languages

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A right ideal (left ideal, two-sided ideal) is a non-empty language $L$ over an alphabet $\Sigma$ such that $L=L\Sigma^*$ ($L=\Sigma^*L$, $L=\Sigma^*L\Sigma^*$). Let $k=3$ for right ideals, 4 for left ideals and 5 for two-sided ideals. We…

Formal Languages and Automata Theory · Computer Science 2023-06-22 Janusz Brzozowski , Sylvie Davies , Bo Yang Victor Liu

A (left) quotient of a language $L$ by a word $w$ is the language $w^{-1}L=\{x\mid wx\in L\}$. The quotient complexity of a regular language $L$ is the number of quotients of $L$; it is equal to the state complexity of $L$, which is the…

Formal Languages and Automata Theory · Computer Science 2015-05-26 Janusz Brzozowski , Sylvie Davies

We study various complexity properties of suffix-free regular languages. The quotient complexity of a regular language $L$ is the number of left quotients of $L$; this is the same as the state complexity of $L$. A regular language $L'$ is a…

Formal Languages and Automata Theory · Computer Science 2016-12-13 Janusz Brzozowski , Marek Szykuła

An atom of a regular language L with n (left) quotients is a non-empty intersection of uncomplemented or complemented quotients of L, where each of the n quotients appears in a term of the intersection. The quotient complexity of L, which…

Formal Languages and Automata Theory · Computer Science 2012-03-09 Janusz Brzozowski , Hellis Tamm

The state complexity of a regular language is the number of states in a minimal deterministic finite automaton accepting the language. The syntactic complexity of a regular language is the cardinality of its syntactic semigroup. The…

Formal Languages and Automata Theory · Computer Science 2017-01-16 Janusz A. Brzozowski , Marek Szykuła , Yuli Ye

The state complexity of a regular language is the number of states in the minimal deterministic automaton accepting the language. The syntactic complexity of a regular language is the cardinality of its syntactic semigroup. The syntactic…

Formal Languages and Automata Theory · Computer Science 2010-10-19 Janusz Brzozowski , Yuli Ye

We study the state complexity of regular operations in the class of ideal languages. A language L over an alphabet Sigma is a right (left) ideal if it satisfies L = L Sigma* (L = Sigma* L). It is a two-sided ideal if L = Sigma* L Sigma *,…

Formal Languages and Automata Theory · Computer Science 2009-08-17 J. Brzozowski , G. Jirásková , B. Li

We relate two measures of complexity of regular languages. The first is syntactic complexity, that is, the cardinality of the syntactic semigroup of the language. That semigroup is isomorphic to the semigroup of transformations of states…

Formal Languages and Automata Theory · Computer Science 2013-05-24 Janusz Brzozowski , Gareth Davies

A language $L$ over an alphabet $\Sigma$ is suffix-convex if, for any words $x,y,z\in\Sigma^*$, whenever $z$ and $xyz$ are in $L$, then so is $yz$. Suffix-convex languages include three special cases: left-ideal, suffix-closed, and…

Formal Languages and Automata Theory · Computer Science 2016-10-05 Janusz Brzozowski , Corwin Sinnamom

We survey recent results concerning the complexity of regular languages represented by their minimal deterministic finite automata. In addition to the quotient complexity of the language -- which is the number of its (left) quotients, and…

Formal Languages and Automata Theory · Computer Science 2017-02-17 Janusz A. Brzozowski

The atoms of a regular language are non-empty intersections of complemented and uncomplemented quotients of the language. Tight upper bounds on the number of atoms of a language and on the quotient complexities of atoms are known. We…

Formal Languages and Automata Theory · Computer Science 2014-05-23 Janusz Brzozowski , Gareth Davies

A language $L$ over an alphabet $\Sigma$ is prefix-convex if, for any words $x,y,z\in\Sigma^*$, whenever $x$ and $xyz$ are in $L$, then so is $xy$. Prefix-convex languages include right-ideal, prefix-closed, and prefix-free languages. We…

Formal Languages and Automata Theory · Computer Science 2016-06-27 Janusz Brzozowski , Corwin Sinnamon

We study the state complexity of binary operations on regular languages over different alphabets. It is known that if $L'_m$ and $L_n$ are languages of state complexities $m$ and $n$, respectively, and restricted to the same alphabet, the…

Formal Languages and Automata Theory · Computer Science 2017-12-22 Janusz Brzozowski , Corwin Sinnamon

We solve two open problems concerning syntactic complexity: We prove that the cardinality of the syntactic semigroup of a left ideal or a suffix-closed language with $n$ left quotients (that is, with state complexity $n$) is at most…

Formal Languages and Automata Theory · Computer Science 2014-07-04 Janusz Brzozowski , Marek Szykuła

The past research on the state complexity of operations on regular languages is examined, and a new approach based on an old method (derivatives of regular expressions) is presented. Since state complexity is a property of a language, it is…

Formal Languages and Automata Theory · Computer Science 2009-07-28 Janusz Brzozowski

We follow language theoretic approach to synchronizing automata and \v{C}ern\'{y}'s conjecture initiated in a series of recent papers. We find a precise lower bound for the reset complexity of a principal ideal languages. Also we show a…

Formal Languages and Automata Theory · Computer Science 2014-12-23 Marina Maslennikova , Emanuele Rodaro

The quotient complexity, also known as state complexity, of a regular language is the number of distinct left quotients of the language. The quotient complexity of an operation is the maximal quotient complexity of the language resulting…

Formal Languages and Automata Theory · Computer Science 2010-12-20 Janusz Brzozowski , Bo Liu

A regular language $L$ is non-returning if in the minimal deterministic finite automaton accepting it there are no transitions into the initial state. Eom, Han and Jir\'askov\'a derived upper bounds on the state complexity of boolean…

Formal Languages and Automata Theory · Computer Science 2017-01-17 Janusz A. Brzozowski , Sylvie Davies

A language $L$ is the orthogonal catenation of languages $L_1$ and $L_2$ if every word of $L$ can be written in a unique way as a catenation of a word in $L_1$ and a word in $L_2$. We establish a tight bound for the state complexity of…

Formal Languages and Automata Theory · Computer Science 2009-04-23 Mark Daley , Michael Domaratzki , Kai Salomaa

We study descriptive complexity properties of the class of regular bifix-free languages, which is the intersection of prefix-free and suffix-free regular languages. We show that there exist a single ternary universal (stream of) bifix-free…

Formal Languages and Automata Theory · Computer Science 2017-01-16 Robert Ferens , Marek Szykuła
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