Title :
Neurocontrol for lateral vehicle guidance
Author :
Neusser, Stefan ; Nijhuis, Jos ; Spaanenburg, Lambert ; Hoefflinger, Bernd ; Franke, Uwe ; Fritz, Hans
Author_Institution :
Inst. for Microelectron., Stuttgart, Germany
Abstract :
A solution to autonomous lateral vehicle guidance using a neurocontroller that can learn from measured human-driving data without knowledge of the physical car parameters is discussed. Simulations and practical tests confirm that a small-size feedforward autonomous neural network (21 neurons) can learn to steer a vehicle at high speeds only from looking at human-driving examples. In this way, the network learns the total closed-loop behavior, including the nonlinear dynamics of the vehicle and the driver´s individual driving style. The main result of practical investigations is that the neutral controller trained on human-driving examples exhibits an aperiodic behavior that does not vanish at higher speeds (tests performed up to 130 km/h) and produces fewer lateral deviations than the linear state controller.<>
Keywords :
feedforward neural nets; road vehicles; closed-loop behavior; feedforward autonomous neural network; human-driving data; lateral vehicle guidance; neurocontroller; neutral controller; Anthropometry; Feedforward neural networks; Mobile robots; Navigation; Neural networks; Neurocontrollers; Neurons; Remotely operated vehicles; Testing; Vehicle dynamics;
Journal_Title :
Micro, IEEE
