This paper presents a virtual racing car controller based on an artificial gene regulatory network. Usually used to control virtual cells in developmental models, recent works showed that gene regulatory networks are also capable to control various kinds of agents such as foraging agents, pole cart, swarm robots, etc. This paper details how a gene regulatory network is evolved to drive on any track through a three-stages incremental evolution. To do so, the inputs and outputs of the network are directly mapped to the car sensors and actuators. To make this controller a competitive racer, we have distorted its inputs online to make it drive faster and to avoid opponents. Another interesting property emerges from this approach: the regulatory...
NetworksInternational audienceGene regulatory networks are a central mechanism in the regulation of ...
Car Racing competitions are becoming increasingly popular in the field of com-putational intelligenc...
In nature, gene regulatory networks are a key mediator between the information stored in the DNA of ...
International audienceThis paper presents a virtual racing car controller based on an artificial gen...
International audienceThis chapter shows how an artificial gene regulatory network (GRN) can be used...
In this paper, we show how a dangerousness metric can be used to modify the input of a gene regulato...
This work presents a driving system designed for virtual racing situations. It is based on a complet...
Abstract-Computational gaming requires the automatic generation of virtual opponents for different g...
Modern computer games are at the same time an attractive application domain and an interesting testb...
This paper describes the evolution of controllers for racing a simulated radio-controlled car around...
Neural network-based controllers are evolved for racing simulated R/C cars around several tracks of ...
International audienceThis work presents a driving system designed for virtual racing situations. It...
Abstract. This paper explores the application of an artificial develop-mental system (ADS) to the fi...
In this paper, we present evolutionary racer (EVOR) that is a simulated car dynamically controlled b...
IEEE Symposium on Computational Intelligence and Games. Perth, Australia, 15-18 December 2008.The te...
NetworksInternational audienceGene regulatory networks are a central mechanism in the regulation of ...
Car Racing competitions are becoming increasingly popular in the field of com-putational intelligenc...
In nature, gene regulatory networks are a key mediator between the information stored in the DNA of ...
International audienceThis paper presents a virtual racing car controller based on an artificial gen...
International audienceThis chapter shows how an artificial gene regulatory network (GRN) can be used...
In this paper, we show how a dangerousness metric can be used to modify the input of a gene regulato...
This work presents a driving system designed for virtual racing situations. It is based on a complet...
Abstract-Computational gaming requires the automatic generation of virtual opponents for different g...
Modern computer games are at the same time an attractive application domain and an interesting testb...
This paper describes the evolution of controllers for racing a simulated radio-controlled car around...
Neural network-based controllers are evolved for racing simulated R/C cars around several tracks of ...
International audienceThis work presents a driving system designed for virtual racing situations. It...
Abstract. This paper explores the application of an artificial develop-mental system (ADS) to the fi...
In this paper, we present evolutionary racer (EVOR) that is a simulated car dynamically controlled b...
IEEE Symposium on Computational Intelligence and Games. Perth, Australia, 15-18 December 2008.The te...
NetworksInternational audienceGene regulatory networks are a central mechanism in the regulation of ...
Car Racing competitions are becoming increasingly popular in the field of com-putational intelligenc...
In nature, gene regulatory networks are a key mediator between the information stored in the DNA of ...