Elementary cellular automata (ECA) are linear arrays of finite-state machines (cells) which take binary states, and update their states simultaneously depending on states of their closest neighbours. We design and study ECA with memory (ECAM), where every cell remembers its states during some fixed period of evolution. We characterize complexity of ECAM in a case study of rule 126, and then provide detailed behavioural classification of ECAM. We show that by enriching ECA with memory we can achieve transitions between the classes of behavioural complexity. We also show that memory helps to 'discover' hidden information and behaviour on trivial (uniform, periodic), and non-trivial (chaotic, complex) dynamical systems
In order to identify complex systems capable of modeling artificial life, we study the notion of com...
This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, provides an autho...
In cellular automata with memory, the unchanged maps of the conventional cellular automata are appli...
Elementary cellular automata (ECA) are linear arrays of finite-state machines (cells) which take bin...
Since their inception at Macy conferences in later 1940s complex systems remain the most controversi...
Since their inception at Macy conferences in later 1940s, complex systems have remained the most con...
We show techniques of analyzing complex dynamics of cellular automata (CA) with chaotic behavior. CA...
Using Rule 126 elementary cellular automaton (ECA) we demonstrate that a chaotic discrete system — w...
Higher-order cellular automata (HOCA) are a variant of cellular automata (CA) used in many applicati...
Using Rule 126 elementary cellular automaton (ECA), we demonstrate that a chaotic discrete system - ...
Memory is a ubiquitous phenomenon in biological systems, in which the present system state is not en...
We exploit the mirror and complementary symmetries of elementary cellular automata (ECAs) to rewrite...
The Density Classification Task is a well known test problem for two-state discrete dynamical system...
In order to identify complex systems capable of modeling artificial life, we study the notion of com...
This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, provides an autho...
In cellular automata with memory, the unchanged maps of the conventional cellular automata are appli...
Elementary cellular automata (ECA) are linear arrays of finite-state machines (cells) which take bin...
Since their inception at Macy conferences in later 1940s complex systems remain the most controversi...
Since their inception at Macy conferences in later 1940s, complex systems have remained the most con...
We show techniques of analyzing complex dynamics of cellular automata (CA) with chaotic behavior. CA...
Using Rule 126 elementary cellular automaton (ECA) we demonstrate that a chaotic discrete system — w...
Higher-order cellular automata (HOCA) are a variant of cellular automata (CA) used in many applicati...
Using Rule 126 elementary cellular automaton (ECA), we demonstrate that a chaotic discrete system - ...
Memory is a ubiquitous phenomenon in biological systems, in which the present system state is not en...
We exploit the mirror and complementary symmetries of elementary cellular automata (ECAs) to rewrite...
The Density Classification Task is a well known test problem for two-state discrete dynamical system...
In order to identify complex systems capable of modeling artificial life, we study the notion of com...
This volume of the Encyclopedia of Complexity and Systems Science, Second Edition, provides an autho...
In cellular automata with memory, the unchanged maps of the conventional cellular automata are appli...