Add to ORKGThis paper presents a new model for the development of artificial creatures from a single cell. The model aims at providing a more biologically plausible abstraction of the morphogenesis and the specialization process, which the organogenesis follows. It is built upon three main elements: a cellular physics system that simulates division and intercellular adhesion dynamics, a simplified cell cycle offering to the cells the possibility to select actions such as division, quiescence, differentiation or apoptosis and, finally, a cell specialization mechanism quantifying the ability to perform different functions. An evolved artificial gene regulatory network is employed as a cell controller. As a proof-of-concept, we present two experiments wh...
The evolution and development of multicellular organisms requires cells to differentiate, interact a...
Genetic Regulatory Networks (GRNs) in biological organisms are primary engines for cells to enact th...
The evolution and development of multicellular organisms requires cells to differentiate, interact a...
International audienceThis paper presents a new model for the development of artificial creatures fr...
This paper presents a new model for the development of artificial creatures from a single cell. The ...
This thesis focuses on the evolution of the development of simulated organisms, where a biologically...
Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predic...
Biological development is a complex and elegant process that generates the vast array of form and sh...
A common theme in the self-organization of multicellular tissues is the use of cell-cell signaling n...
The emergence of novelties, as a generator of diversity, in the form and function of the organisms h...
As a natural evolution of developments in membrane computing and self-assembly, the time appears rip...
International audienceThe theory of complex systems has become more and more relevant over the last ...
The goal of this Thesis is to investigate spatial self-organization. The cellular coherence is the ...
This thesis introduces a model of multicellular development. The model combines elements of the chem...
A new kind of self‐assembly model, morphogenetic (M) systems, assembles spatial units into larger st...
The evolution and development of multicellular organisms requires cells to differentiate, interact a...
Genetic Regulatory Networks (GRNs) in biological organisms are primary engines for cells to enact th...
The evolution and development of multicellular organisms requires cells to differentiate, interact a...
International audienceThis paper presents a new model for the development of artificial creatures fr...
This paper presents a new model for the development of artificial creatures from a single cell. The ...
This thesis focuses on the evolution of the development of simulated organisms, where a biologically...
Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predic...
Biological development is a complex and elegant process that generates the vast array of form and sh...
A common theme in the self-organization of multicellular tissues is the use of cell-cell signaling n...
The emergence of novelties, as a generator of diversity, in the form and function of the organisms h...
As a natural evolution of developments in membrane computing and self-assembly, the time appears rip...
International audienceThe theory of complex systems has become more and more relevant over the last ...
The goal of this Thesis is to investigate spatial self-organization. The cellular coherence is the ...
This thesis introduces a model of multicellular development. The model combines elements of the chem...
A new kind of self‐assembly model, morphogenetic (M) systems, assembles spatial units into larger st...
The evolution and development of multicellular organisms requires cells to differentiate, interact a...
Genetic Regulatory Networks (GRNs) in biological organisms are primary engines for cells to enact th...
The evolution and development of multicellular organisms requires cells to differentiate, interact a...