We study computational complexity of counting the fixed point configurations (FPs) in certain classes of graph automata viewed as discrete dynamical systems. We prove that both exact and approximate counting of FPs in Sequential and Synchronous Dynamical Systems (SDSs and SyDSs, respectively) are computationally intractable, even when each node is required to update according to a symmetric Boolean function. We also show that the problems of counting exactly the garden of Eden configurations (GEs), as well as all transient configurations, are in general intractable, as well. Moreover, exactly enumerating FPs or GEs remains hard even in some severely restricted cases, such as when the nodes of an SDS or SyDS use only two different symmetric ...
AbstractWe study the computational complexity of several problems with the evolution of configuratio...
International audienceDeterministic Boolean networks are a type of discrete dynamical systems widely...
An automata network (AN) is a network of entities, each holding a state from a finite set and relate...
We study computational complexity of counting the fixed point configurations (FPs) in certain discre...
We study counting various types of configurations in certain classes of graph automata viewed as dis...
We present dichotomy theorems regarding the computational complexity of counting fixed points in boo...
International audienceWe study the sensitivity of some Boolean automata networks to changes in their...
AbstractSequential Dynamical Systems (SDSs) are a special type of finite discrete dynamical systems ...
43 pagesA Boolean network (BN) with $n$ components is a discrete dynamical system described by the s...
In this paper, we study boolean monomial dynamical systems. Colón-Reyes, Jarrah, Laubenbacher, and S...
A class of finite discrete dynamical systems, called Sequential Dynamical Systems (SDSs), was introd...
An automata network is a finite assembly of interconnected entities endowed with a set of local maps...
Let F:0,1n⟶0,1n be a parallel dynamical system over an undirected graph with a Boolean maxterm or mi...
An automata network is a network of entities, each holding a state from a finite set and evolving ac...
Abstract. In the applications of Boolean networks to modeling biological systems, an important compu...
AbstractWe study the computational complexity of several problems with the evolution of configuratio...
International audienceDeterministic Boolean networks are a type of discrete dynamical systems widely...
An automata network (AN) is a network of entities, each holding a state from a finite set and relate...
We study computational complexity of counting the fixed point configurations (FPs) in certain discre...
We study counting various types of configurations in certain classes of graph automata viewed as dis...
We present dichotomy theorems regarding the computational complexity of counting fixed points in boo...
International audienceWe study the sensitivity of some Boolean automata networks to changes in their...
AbstractSequential Dynamical Systems (SDSs) are a special type of finite discrete dynamical systems ...
43 pagesA Boolean network (BN) with $n$ components is a discrete dynamical system described by the s...
In this paper, we study boolean monomial dynamical systems. Colón-Reyes, Jarrah, Laubenbacher, and S...
A class of finite discrete dynamical systems, called Sequential Dynamical Systems (SDSs), was introd...
An automata network is a finite assembly of interconnected entities endowed with a set of local maps...
Let F:0,1n⟶0,1n be a parallel dynamical system over an undirected graph with a Boolean maxterm or mi...
An automata network is a network of entities, each holding a state from a finite set and evolving ac...
Abstract. In the applications of Boolean networks to modeling biological systems, an important compu...
AbstractWe study the computational complexity of several problems with the evolution of configuratio...
International audienceDeterministic Boolean networks are a type of discrete dynamical systems widely...
An automata network (AN) is a network of entities, each holding a state from a finite set and relate...