Add to ORKGAbstract Origin of life theories often argue that molecular self-organization explains the spontaneous emergence of structural and dynamical constraints. How-ever, the preservation of these constraints over time is not well-explained because of the self-undermining and self-limiting nature of these same processes. A pro-cess called autogenesis has been proposed in which negative structural coupling between self-organized processes preserves the constraints thereby accumulated. This paper presents a computer simulation of this process (the Autogenic Automa-ton) and compares its behavior to the same self-organizing processes when uncou-pled. We demonstrate that this coupling produces a second-order constraint that can both resist dissipation ...
There is a long tradition of software simulations in theoretical biology to complement pure analytic...
automaton, random dynamical system, boundary conditions Abstract This article revisits the concept o...
It is argued that a fruitful, and as yet unexplored, avenue for artificial life research lies in mod...
Many origin of life theories argue that molecular self-organization explains the spontaneous emergen...
The first in silico models of self-reproduction only focused on the logic of the mechanisms that exe...
Understanding self-replication from an informa-tion processing perspective is important because, amo...
Abstract. There is a long tradition of software simulations in theoretical biology to complement pur...
The question of the origin of life is addressed by artificial life research, particularly in the rea...
There is a long tradition of software simulations in theoretical biology to complement pure analytic...
The basic rules of self-organization using a totalistic cellular automaton (CA) were investigated, f...
One of the causes of the great survival capability of some biological systems is the fact that they ...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
We propose an original 2D agent-based model of biological "autopoiesis," the process by which a cell...
International audienceCellular automata are often used to explore the numerous possible scenarios of...
The principle of the hypercycle accounts for the increase of information in autocatalytic nets while...
There is a long tradition of software simulations in theoretical biology to complement pure analytic...
automaton, random dynamical system, boundary conditions Abstract This article revisits the concept o...
It is argued that a fruitful, and as yet unexplored, avenue for artificial life research lies in mod...
Many origin of life theories argue that molecular self-organization explains the spontaneous emergen...
The first in silico models of self-reproduction only focused on the logic of the mechanisms that exe...
Understanding self-replication from an informa-tion processing perspective is important because, amo...
Abstract. There is a long tradition of software simulations in theoretical biology to complement pur...
The question of the origin of life is addressed by artificial life research, particularly in the rea...
There is a long tradition of software simulations in theoretical biology to complement pure analytic...
The basic rules of self-organization using a totalistic cellular automaton (CA) were investigated, f...
One of the causes of the great survival capability of some biological systems is the fact that they ...
Self-organization is ubiquitous in nature. Self-organizing systems are highly distributed, composed ...
We propose an original 2D agent-based model of biological "autopoiesis," the process by which a cell...
International audienceCellular automata are often used to explore the numerous possible scenarios of...
The principle of the hypercycle accounts for the increase of information in autocatalytic nets while...
There is a long tradition of software simulations in theoretical biology to complement pure analytic...
automaton, random dynamical system, boundary conditions Abstract This article revisits the concept o...
It is argued that a fruitful, and as yet unexplored, avenue for artificial life research lies in mod...