. . "\u0160norek, Miroslav" . "Research Publishing Services" . . "Drchal, Jan" . . "HyperNEAT Controlled Robots Learn How to Drive on Roads in Simulated Environment" . "HyperNEAT Controlled Robots Learn How to Drive on Roads in Simulated Environment"@en . "978-1-4244-2959-2" . . "[370AB7079EE2]" . "2009 IEEE Congress on Evolutionary Computation" . . . . . "3"^^ . . "Singapore" . . . . "In this paper we describe simulation of autonomous robots controlled by recurrent neural networks, which are evolved through indirect encoding using HyperNEAT algorithm. The robots utilize 180 degree wide sensor array. Thanks to the scalability of the neural network generated by HyperNEAT, the sensor array can have various resolution. This would allow to use camera as an input for neural network controller used in real robot. The robots were simulated using software simulation environment. In the experiments the robots were trained to drive with imaximum average speed. Such fitness forces them to learn how to drive on roads and avoid collisions. Evolved neural networks show excellent scalability. Scaling of the sensory input breaks performance of the robots, which should be gained back with re-training of the robot with a different sensory input resolution."@en . "RIV/68407700:21230/09:00158896!RIV10-MSM-21230___" . . . "3"^^ . "RIV/68407700:21230/09:00158896" . "318215" . . "In this paper we describe simulation of autonomous robots controlled by recurrent neural networks, which are evolved through indirect encoding using HyperNEAT algorithm. The robots utilize 180 degree wide sensor array. Thanks to the scalability of the neural network generated by HyperNEAT, the sensor array can have various resolution. This would allow to use camera as an input for neural network controller used in real robot. The robots were simulated using software simulation environment. In the experiments the robots were trained to drive with imaximum average speed. Such fitness forces them to learn how to drive on roads and avoid collisions. Evolved neural networks show excellent scalability. Scaling of the sensory input breaks performance of the robots, which should be gained back with re-training of the robot with a different sensory input resolution." . . "P(KJB201210701), Z(MSM6840770012)" . "6"^^ . "HyperNEAT; neural networks; simulated robots"@en . "HyperNEAT Controlled Robots Learn How to Drive on Roads in Simulated Environment"@en . . "Trondheim" . "HyperNEAT Controlled Robots Learn How to Drive on Roads in Simulated Environment" . . . "21230" . "2009-05-18+02:00"^^ . "Koutn\u00EDk, Jan" .