AbstractIn this paper, we investigate how 1-D reversible cellular automata (RCAs) can simulate reversible Turing machines (RTMs) and cyclic tag systems (CTSs). A CTS is a universal string rewriting system proposed by M. Cook. First, we show that for any m-state n-symbol RTM there is a 1-D 2-neighbor RCA with a number of states less than (m+2n+1)(m+n+1) that simulates it. It improves past results both in the number of states and in the neighborhood size. Second, we study the problem of finding a 1-D RCA with a small number of states that can simulate any CTS. So far, a 30-state RCA that can simulate any CTS and works on ultimately periodic infinite configurations has been given by K. Morita. Here, we show there is a 24-state 2-neighbor RCA w...
We introduce a new model of cellular automaton called a one-dimensional number-conserving partitione...
Reversible cellular automata (RCAs) are a special class of cellular automata with some very distinct...
International audienceThis chapter presents the use of Partitioned Cellular Automata —introduced by ...
AbstractIn this paper, we investigate how 1-D reversible cellular automata (RCAs) can simulate rever...
We study one-dimensional reversible and number-conserving cellular automata (RNCCA) that have both p...
The existence of computation-universal one-dimensional cellular automata with seven states per cell ...
A reversible (or injective) cellular automaton (RCA) is a "backward deterministic" CA, i.e., every c...
A reversible cellular automaton (CA) is a "backward deterministic" CA, i.e, every configuration of i...
AbstractA reversible cellular automaton (RCA) is a cellular automaton (CA) whose global function is ...
A reversible cellular automaton (RCA) is regarded as a mathematical model for spatiotemporal phenome...
We describe two algorithms for calculating reversible one-dimensional cellular automata of neighborh...
Abstract. We study the orbits of reversible one-dimensional cellular automata. It is shown that the ...
We study the problem of designing small universal reversible Turing machines (URTMs). So far, six ki...
AbstractA cellular automaton (CA) is called reversible (or injective) iff its global function is one...
Reversibility corresponds to the conservation of information and energy. It allows unambiguous backt...
We introduce a new model of cellular automaton called a one-dimensional number-conserving partitione...
Reversible cellular automata (RCAs) are a special class of cellular automata with some very distinct...
International audienceThis chapter presents the use of Partitioned Cellular Automata —introduced by ...
AbstractIn this paper, we investigate how 1-D reversible cellular automata (RCAs) can simulate rever...
We study one-dimensional reversible and number-conserving cellular automata (RNCCA) that have both p...
The existence of computation-universal one-dimensional cellular automata with seven states per cell ...
A reversible (or injective) cellular automaton (RCA) is a "backward deterministic" CA, i.e., every c...
A reversible cellular automaton (CA) is a "backward deterministic" CA, i.e, every configuration of i...
AbstractA reversible cellular automaton (RCA) is a cellular automaton (CA) whose global function is ...
A reversible cellular automaton (RCA) is regarded as a mathematical model for spatiotemporal phenome...
We describe two algorithms for calculating reversible one-dimensional cellular automata of neighborh...
Abstract. We study the orbits of reversible one-dimensional cellular automata. It is shown that the ...
We study the problem of designing small universal reversible Turing machines (URTMs). So far, six ki...
AbstractA cellular automaton (CA) is called reversible (or injective) iff its global function is one...
Reversibility corresponds to the conservation of information and energy. It allows unambiguous backt...
We introduce a new model of cellular automaton called a one-dimensional number-conserving partitione...
Reversible cellular automata (RCAs) are a special class of cellular automata with some very distinct...
International audienceThis chapter presents the use of Partitioned Cellular Automata —introduced by ...