We present very sharp separation results for Turing machine sublogarithmic space complexity classes which are of the form: For any, arbitrarily slow growing, recursive nondecreasing and unbounded function s there is a k in N and an unary language L such that L in SPACE(s(n)+k) setminus SPACE(s(n-1)). For a binary L the supposition łims = infty is sufficient. The witness languages differ from each language from the lower classes on infinitely many words. We use so called demon (Turing) machines where the tape limit is given automatically without any construction. The results hold for deterministic and nondeterministic demon machines and also for alternating demon machines with a constant number of alternations, and with unlimited number of a...
In this work we study classes of languages accepted by finitely ambiguous space bounded automata whi...
AbstractIn this paper we study diagonal processes over time bounded computations of one-tape Turing ...
AbstractIn this paper we investigate the computational power of simple programming languages and pro...
AbstractIn this paper we review the key results about space bounded complexity classes, discuss the ...
The complexity measure under consideration is SPACE x REVERSALS for Turing machines that are able to...
Refined Turing machine space complexity classes are defined by limiting all three of the resources s...
International audienceDeterministic one-way Turing machines with sublinear space bounds are systemat...
In this paper, we review the key results about space bounded complexity classes, discuss the centra...
AbstractThe main properties of deterministic and nondeterministic space complexity classes are given...
International audienceDeterministic one-way Turing machines with sublinear space bounds are systemat...
Diagonalization, cardinality, and recursive padding arguments are used to separate the Turing machin...
AbstractDeterministic k-tape and multitape Turing machines with one-way, two-way and without a separ...
This paper considers the well-known Turing machine model, the nondeterministic real-time Turing mach...
Deterministic k-tape and multitape Turing machines with one-way, two-way and without a separated inp...
AbstractThe time separation results concerning classes of languages over a single-letter alphabet ac...
In this work we study classes of languages accepted by finitely ambiguous space bounded automata whi...
AbstractIn this paper we study diagonal processes over time bounded computations of one-tape Turing ...
AbstractIn this paper we investigate the computational power of simple programming languages and pro...
AbstractIn this paper we review the key results about space bounded complexity classes, discuss the ...
The complexity measure under consideration is SPACE x REVERSALS for Turing machines that are able to...
Refined Turing machine space complexity classes are defined by limiting all three of the resources s...
International audienceDeterministic one-way Turing machines with sublinear space bounds are systemat...
In this paper, we review the key results about space bounded complexity classes, discuss the centra...
AbstractThe main properties of deterministic and nondeterministic space complexity classes are given...
International audienceDeterministic one-way Turing machines with sublinear space bounds are systemat...
Diagonalization, cardinality, and recursive padding arguments are used to separate the Turing machin...
AbstractDeterministic k-tape and multitape Turing machines with one-way, two-way and without a separ...
This paper considers the well-known Turing machine model, the nondeterministic real-time Turing mach...
Deterministic k-tape and multitape Turing machines with one-way, two-way and without a separated inp...
AbstractThe time separation results concerning classes of languages over a single-letter alphabet ac...
In this work we study classes of languages accepted by finitely ambiguous space bounded automata whi...
AbstractIn this paper we study diagonal processes over time bounded computations of one-tape Turing ...
AbstractIn this paper we investigate the computational power of simple programming languages and pro...