Add to ORKGInternational audienceThis paper explores temporal and spatial dynamics of a population of Genetic Regulatory Networks (GRN). In order to so, a GRN model is spatially distributed to solve a multi-cellular Artificial Embryogeny problem, and Evolutionary Computation is used to optimize the developmental sequences. An in-depth analysis is provided and show that such a population of GRN display strong spatial synchronization as well as various kind of behavioral patterns, ranging from smooth diffusion to abrupt transition patterns
International audienceIn the course of understanding the functioning of cellular processes, modellin...
Genetic Regulatory Networks (GRNs) in biological organisms are primary engines for cells to enact th...
International audienceIn the course of understanding the functioning of cellular processes, modellin...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
This paper explores temporal and spatial dynamics of a popu-lation of Genetic Regulatory Networks (G...
This paper explores temporal and spatial dynamics of a popu-lation of Genetic Regulatory Networks (G...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceIn the course of understanding the functioning of cellular processes, modellin...
International audienceIn the course of understanding the functioning of cellular processes, modellin...
Genetic Regulatory Networks (GRNs) in biological organisms are primary engines for cells to enact th...
International audienceIn the course of understanding the functioning of cellular processes, modellin...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
This paper explores temporal and spatial dynamics of a popu-lation of Genetic Regulatory Networks (G...
This paper explores temporal and spatial dynamics of a popu-lation of Genetic Regulatory Networks (G...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceThis paper explores temporal and spatial dynamics of a population of Genetic R...
International audienceIn the course of understanding the functioning of cellular processes, modellin...
International audienceIn the course of understanding the functioning of cellular processes, modellin...
Genetic Regulatory Networks (GRNs) in biological organisms are primary engines for cells to enact th...
International audienceIn the course of understanding the functioning of cellular processes, modellin...