The Hypercube-based NeuroEvolution of Augmenting Topologies (HyperNEAT) approach demonstrated that the pattern of weights across the connectivity of an artificial neural network (ANN) can be generated as a function of its geometry, thereby allowing large ANNs to be evolved for high-dimensional problems. Yet it left to the user the question of where hidden nodes should be placed in a geometry that is potentially infinitely dense. To relieve the user from this decision, this paper introduces an extension called evolvable-substrate HyperNEAT (ES-HyperNEAT) that determines the placement and density of the hidden nodes based on a guodtree-like decomposition of the hypercube of weights and a novel insight about the relationship between connectivi...
Connectivity patterns in biological brains exhibit many repeating motifs. This repetition mirrors in...
Looking to nature as inspiration, for at least the past 25 years, researchers in the field of neuroe...
An ambitious long-term goal for neuroevolution, which studies how artificial evolutionary processes ...
The Hypercube-based NeuroEvolution of Augmenting Topologies (HyperNEAT) approach demonstrated that t...
Intelligence in nature is the product of living brains, which are themselves the product of natural ...
Intelligence in nature is the product of living brains, which are themselves the product of natural ...
The recently-introduced evolvable-substrate HyperNEAT algorithm (ES-HyperNEAT) demonstrated that the...
Research in neuroevolution-that is, evolving artificial neural networks (ANNs) through evolutionary ...
Humanity have begun to actively use artificial intelligence to solve problems. However, many of thes...
HyperNEAT, which stands for Hypercube-based NeuroEvolution of Augmenting Topologies, is a method for...
Abstract Neuroevolution is a technique that evolves artificial neural networks through evolutionary ...
Biological brains can adapt and learn from past experience. In neuroevolution, i.e. evolving artific...
An important phenomenon seen in many areas of biological brains and recently in deep learning archit...
An ambitious long-term goal for neuroevolution, which studies how artificial evolutionary processes ...
A challenging goal of generative and developmental systems (GDS) is to effectively evolve neural net...
Connectivity patterns in biological brains exhibit many repeating motifs. This repetition mirrors in...
Looking to nature as inspiration, for at least the past 25 years, researchers in the field of neuroe...
An ambitious long-term goal for neuroevolution, which studies how artificial evolutionary processes ...
The Hypercube-based NeuroEvolution of Augmenting Topologies (HyperNEAT) approach demonstrated that t...
Intelligence in nature is the product of living brains, which are themselves the product of natural ...
Intelligence in nature is the product of living brains, which are themselves the product of natural ...
The recently-introduced evolvable-substrate HyperNEAT algorithm (ES-HyperNEAT) demonstrated that the...
Research in neuroevolution-that is, evolving artificial neural networks (ANNs) through evolutionary ...
Humanity have begun to actively use artificial intelligence to solve problems. However, many of thes...
HyperNEAT, which stands for Hypercube-based NeuroEvolution of Augmenting Topologies, is a method for...
Abstract Neuroevolution is a technique that evolves artificial neural networks through evolutionary ...
Biological brains can adapt and learn from past experience. In neuroevolution, i.e. evolving artific...
An important phenomenon seen in many areas of biological brains and recently in deep learning archit...
An ambitious long-term goal for neuroevolution, which studies how artificial evolutionary processes ...
A challenging goal of generative and developmental systems (GDS) is to effectively evolve neural net...
Connectivity patterns in biological brains exhibit many repeating motifs. This repetition mirrors in...
Looking to nature as inspiration, for at least the past 25 years, researchers in the field of neuroe...
An ambitious long-term goal for neuroevolution, which studies how artificial evolutionary processes ...