It is well-known that one-tape Turing machines working in linear time are no more powerful than finite automata, namely they recognize exactly the class of regular languages. We prove that it is not decidable if a one-tape machine works in linear time, even if it is deterministic and restricted to use only the portion of the tape which initially contains the input. This motivates the introduction of a constructive variant of one-tape machines, called weight-reducing machine, and the investigation of its properties. We focus on the deterministic case. In particular, we show that, paying a polynomial size increase only, each weight-reducing machine can be turned into a halting one that works in linear time. Furthermore each weight-reducing ma...
AbstractWe shall show that, for each nondeterministic single-tape Turing machine M of time complexit...
Turing assemblers are Turing machines which operate on n-dimensional tapes under restrictions which ...
AbstractFor off-line one-tape Turing machines the number of tape reversals required for various comp...
It is well-known that one-tape Turing machines working in linear time are no more powerful than fini...
International audienceIt is well known that one-tape Turing machines running in linear time are no m...
It is well-known that one-tape Turing machines working in linear time are no more powerful than fini...
In 1978 Sakoda and Sipser raised the question of the cost, in terms of size of representations, of t...
The time complexity of 1-limited automata is investigated from a descriptional complexity view point...
The time complexity of 1-limited automata is investigated from a descriptional complexity view point...
In 1965 Hennie proved that one-tape deterministic Turing machines working in linear time are equival...
We present two restricted versions of one-tape Turing machines. Both characterize the class of conte...
The time complexity of 1-limited automata is investigated from a descriptional complexity view point...
The model of Turing machines has been studied since its birth in 1936. Researchers have continuously...
Limited automata are one-tape Turing machines that are allowed to rewrite the content of any tape ce...
We investigate the relationship between the classes of languages accepted by deterministic and nonde...
AbstractWe shall show that, for each nondeterministic single-tape Turing machine M of time complexit...
Turing assemblers are Turing machines which operate on n-dimensional tapes under restrictions which ...
AbstractFor off-line one-tape Turing machines the number of tape reversals required for various comp...
It is well-known that one-tape Turing machines working in linear time are no more powerful than fini...
International audienceIt is well known that one-tape Turing machines running in linear time are no m...
It is well-known that one-tape Turing machines working in linear time are no more powerful than fini...
In 1978 Sakoda and Sipser raised the question of the cost, in terms of size of representations, of t...
The time complexity of 1-limited automata is investigated from a descriptional complexity view point...
The time complexity of 1-limited automata is investigated from a descriptional complexity view point...
In 1965 Hennie proved that one-tape deterministic Turing machines working in linear time are equival...
We present two restricted versions of one-tape Turing machines. Both characterize the class of conte...
The time complexity of 1-limited automata is investigated from a descriptional complexity view point...
The model of Turing machines has been studied since its birth in 1936. Researchers have continuously...
Limited automata are one-tape Turing machines that are allowed to rewrite the content of any tape ce...
We investigate the relationship between the classes of languages accepted by deterministic and nonde...
AbstractWe shall show that, for each nondeterministic single-tape Turing machine M of time complexit...
Turing assemblers are Turing machines which operate on n-dimensional tapes under restrictions which ...
AbstractFor off-line one-tape Turing machines the number of tape reversals required for various comp...