Add to ORKGEvolutionary development as a strategy for the design of artificial neural networks is an enticing idea, with possible inspiration from both biology and existing indirect representations. A growing neural network can not only optimize towards a specific goal, but can also exhibit plasticity and regeneration. Furthermore, a generative system trained in the optimization of the resultant neural network in a reinforcement learning environment has the capability of on-line learning after evolution in any reward-driven environment. In this abstract, we outline the motivation for and design of a generative system for artificial neural network design
Capturing higher-order principles of evolution and neural function in a model may result in simulati...
Neuroevolution, i.e. evolution of artificial neural networks, has recently emerged as a powerful tec...
Neuroevolution, i.e. evolution of artificial neural networks, has recently emerged as a powerful tec...
International audienceEvolutionary development as a strategy for the design of artificial neural net...
Evolutionary development as a strategy for the design of artificial neural networks is an enticing i...
Evolutionary development as a strategy for the design of artificial neural networks is an enticing i...
International audienceEvolutionary development as a strategy for the design of artificial neural net...
Biological neural networks are systems of extraordinary computational capabilities shaped by evoluti...
Neuroevolution, i.e. evolving artificial neural networks with genetic algorithms, has been highly ef...
Biological neural networks are systems of extraordinary computational capabilities shaped by evoluti...
Designing articial systems with ever more biologically-plausible `brains ' continues apace and ...
We present a model of decentralized growth for Artificial Neural Networks (ANNs) inspired by the dev...
We present a model of decentralized growth and development for artificial neural networks (ANNs), in...
Neuro-genetic systems, a particular type of evolving systems, have become a very important topic of ...
A major goal of bio-inspired artificial intelligence is to design artificial neural networks with ab...
Capturing higher-order principles of evolution and neural function in a model may result in simulati...
Neuroevolution, i.e. evolution of artificial neural networks, has recently emerged as a powerful tec...
Neuroevolution, i.e. evolution of artificial neural networks, has recently emerged as a powerful tec...
International audienceEvolutionary development as a strategy for the design of artificial neural net...
Evolutionary development as a strategy for the design of artificial neural networks is an enticing i...
Evolutionary development as a strategy for the design of artificial neural networks is an enticing i...
International audienceEvolutionary development as a strategy for the design of artificial neural net...
Biological neural networks are systems of extraordinary computational capabilities shaped by evoluti...
Neuroevolution, i.e. evolving artificial neural networks with genetic algorithms, has been highly ef...
Biological neural networks are systems of extraordinary computational capabilities shaped by evoluti...
Designing articial systems with ever more biologically-plausible `brains ' continues apace and ...
We present a model of decentralized growth for Artificial Neural Networks (ANNs) inspired by the dev...
We present a model of decentralized growth and development for artificial neural networks (ANNs), in...
Neuro-genetic systems, a particular type of evolving systems, have become a very important topic of ...
A major goal of bio-inspired artificial intelligence is to design artificial neural networks with ab...
Capturing higher-order principles of evolution and neural function in a model may result in simulati...
Neuroevolution, i.e. evolution of artificial neural networks, has recently emerged as a powerful tec...
Neuroevolution, i.e. evolution of artificial neural networks, has recently emerged as a powerful tec...