In this note we show that the tape bounded complexity classes of languages over single letter alphabets are closed under complementation. We then use this result to show that there exists an infinite hierarchy of tape bounded complexity classes of sla languages between log n and log log n tape bounds. We also show that every infinite sla language recognizable on less than log n tape has infinitely many different regular subsets, and, therefore, the set of primes in unary notation, P, requires exactly log n tape for its recognition and every infinite subset of P requires at least log n tape
In this paper we study the classic problem of determining whether the deterministic and non-determin...
AbstractIn this note we answer an open question in the theory of grammatical complexity: We show tha...
We show that languages in the least full AFL enclosing all E0L-languages are of tape-complexity (log...
AbstractIn this paper we show that the tape bounded complexity classes of languages over single lett...
The tape complexity of context-free languages is investigated. It is shown that all the members of t...
Let L be a language recognized by a nondeterministic (single-tape) Turing machine of time complexity...
The principal result described in this paper is the equivalence of the following statements:o(1)Ever...
In this paper we study languages accepted by nondeterministic $\log n$-tape automata which scan the...
An intriguing question is whether (log n) ~ space is enough to recognize the class 9 ~ of languages...
The number of tape reversals required for the recognition of a set of inputs by a 1-tape Turing mach...
We investigate the following: (1) the relationship between the classes of languages accepted by det...
An intriguing question is whether (log n)2 space is enough to recognize the class of languages reco...
We investigate the relationship between the classes of languages accepted by deterministic and nonde...
In 1965 Hennie proved that one-tape deterministic Turing machines working in linear time are equival...
AbstractThis paper contains answers to several problems in the theory of the computational complexit...
In this paper we study the classic problem of determining whether the deterministic and non-determin...
AbstractIn this note we answer an open question in the theory of grammatical complexity: We show tha...
We show that languages in the least full AFL enclosing all E0L-languages are of tape-complexity (log...
AbstractIn this paper we show that the tape bounded complexity classes of languages over single lett...
The tape complexity of context-free languages is investigated. It is shown that all the members of t...
Let L be a language recognized by a nondeterministic (single-tape) Turing machine of time complexity...
The principal result described in this paper is the equivalence of the following statements:o(1)Ever...
In this paper we study languages accepted by nondeterministic $\log n$-tape automata which scan the...
An intriguing question is whether (log n) ~ space is enough to recognize the class 9 ~ of languages...
The number of tape reversals required for the recognition of a set of inputs by a 1-tape Turing mach...
We investigate the following: (1) the relationship between the classes of languages accepted by det...
An intriguing question is whether (log n)2 space is enough to recognize the class of languages reco...
We investigate the relationship between the classes of languages accepted by deterministic and nonde...
In 1965 Hennie proved that one-tape deterministic Turing machines working in linear time are equival...
AbstractThis paper contains answers to several problems in the theory of the computational complexit...
In this paper we study the classic problem of determining whether the deterministic and non-determin...
AbstractIn this note we answer an open question in the theory of grammatical complexity: We show tha...
We show that languages in the least full AFL enclosing all E0L-languages are of tape-complexity (log...