We developed a bio-inspired robot controller combining an artificial genome with an agent-based control system. The genome encodes a gene regulatory network (GRN) that is switched on by environmental cues and, following the rules of transcriptional regulation, provides output signals to actuators. Whereas the genome represents the full encoding of the transcriptional network, the agent-based system mimics the active regulatory network and signal transduction system also present in naturally occurring biological systems. Using such a design that separates the static from the conditionally active part of the gene regulatory network contributes to a better general adaptive behaviour. Here, we have explored the potential of our platform with re...
Guo H, Meng Y, Jin Y. Self-adaptive multi-robot construction using gene regulatory networks. In: 20...
Evolutionary robotics is a technique that aims to create controllers and sometimes morphologies for ...
生物の複雑適応システムの進化機序に新たな規則を発見 --アリロボットの群れを「飼いならす」--. 京都大学プレスリリース. 2019-01-29.The evolution of complexity...
We developed a bio-inspired robot controller combining an artificial genome with an agent-based cont...
One of the important challenges in the field of evolutionary robotics is the development of systems ...
<div><p>One of the important challenges in the field of evolutionary robotics is the development of ...
This work has explored the adaptive potential of simulated swarm robots that contain a genomic encod...
In this paper, we present an agent-based system to control a single robot’s behaviour. We present an...
Previous research has demonstrated that computational models of Gene Regulatory Networks (GRNs) can ...
Abstract. Fractal proteins are an evolvable method of mapping genotype to phenotype through a develo...
“The original publication is available at www.springerlink.com”. Copyright Springer. [Full text of t...
This thesis investigates several aspects of environment-driven adaptation in simulated evolutionary ...
Adaptive Fractal Gene Regulatory Networks for Robot Control for citing: "However, the recent work ...
Morphogenesis, the biological developmental process of multicellular organisms, is a robust self-org...
This paper is concerned with adaptation capabilities of evolved neural controllers. A method consist...
Guo H, Meng Y, Jin Y. Self-adaptive multi-robot construction using gene regulatory networks. In: 20...
Evolutionary robotics is a technique that aims to create controllers and sometimes morphologies for ...
生物の複雑適応システムの進化機序に新たな規則を発見 --アリロボットの群れを「飼いならす」--. 京都大学プレスリリース. 2019-01-29.The evolution of complexity...
We developed a bio-inspired robot controller combining an artificial genome with an agent-based cont...
One of the important challenges in the field of evolutionary robotics is the development of systems ...
<div><p>One of the important challenges in the field of evolutionary robotics is the development of ...
This work has explored the adaptive potential of simulated swarm robots that contain a genomic encod...
In this paper, we present an agent-based system to control a single robot’s behaviour. We present an...
Previous research has demonstrated that computational models of Gene Regulatory Networks (GRNs) can ...
Abstract. Fractal proteins are an evolvable method of mapping genotype to phenotype through a develo...
“The original publication is available at www.springerlink.com”. Copyright Springer. [Full text of t...
This thesis investigates several aspects of environment-driven adaptation in simulated evolutionary ...
Adaptive Fractal Gene Regulatory Networks for Robot Control for citing: "However, the recent work ...
Morphogenesis, the biological developmental process of multicellular organisms, is a robust self-org...
This paper is concerned with adaptation capabilities of evolved neural controllers. A method consist...
Guo H, Meng Y, Jin Y. Self-adaptive multi-robot construction using gene regulatory networks. In: 20...
Evolutionary robotics is a technique that aims to create controllers and sometimes morphologies for ...
生物の複雑適応システムの進化機序に新たな規則を発見 --アリロボットの群れを「飼いならす」--. 京都大学プレスリリース. 2019-01-29.The evolution of complexity...