In previous articles we have introduced Multi Random Boolean Networks (MRBNs) as a possible model for the interaction among cells within multicellular organisms or within bacteria colonies. MRBNs are sets of Random Boolean Networks (RBNs), placed on a Cellular Automaton, whose nodes may be affected by the activation of some nodes in neighbouring networks. In this paper we study the effects induced by interaction on the dynamics of those RBNs that if isolated lay in the critical region. It is shown that the influence of interaction is not univocal; nevertheless it is possible to identify three classes of representative behaviours. RBNs belonging to each class seem to have different dynamical peculiarities even in isolation: although sharing the parameters proper of critical networks, they substantially differ in their typical response to perturbations.
[1]
Roberto Serra,et al.
Interacting random boolean networks
,
2007
.
[2]
Roberto Serra,et al.
The Diffusion of Perturbations in a Model of Coupled Random Boolean Networks
,
2008,
ACRI.
[3]
Kunihiko Kaneko,et al.
Life: An Introduction to Complex Systems Biology
,
2006
.
[4]
L. Kadanoff,et al.
Boolean Dynamics with Random Couplings
,
2002,
nlin/0204062.
[5]
Stuart A. Kauffman,et al.
ORIGINS OF ORDER
,
2019,
Origins of Order.
[6]
Christopher G. Langton,et al.
Computation at the edge of chaos: Phase transitions and emergent computation
,
1990
.
[7]
Per Bak,et al.
How Nature Works
,
1996
.