Title :
Depth control of an unmanned underwater vehicle using neural networks
Author :
Sutton, R. ; Johnson, C. ; Roberts, G.N.
Author_Institution :
Marine Dynamics Res. Group, Plymouth Univ., UK
Abstract :
Artificial neural networks offer an alternative strategy for the non-linear control of unmanned underwater vehicles (UUVs). This paper presents the results of a simulation study into the development of a neural network controller for depth control of a UUV. Results presented compare the performance of the neural controller based on the multilayered perceptron (MLP) chemotaxis training algorithm with proportional-integral-derivative (PID) controller. Results will show that in the presence of noise and change in mass of the vehicle the neural controller out performed the standard PID controller
Keywords :
learning (artificial intelligence); marine systems; multilayer perceptrons; neurocontrollers; nonlinear control systems; spatial variables control; PID controller; chemotaxis training algorithm; multilayered perceptron; neural network controller; nonlinear control; simulation; unmanned underwater vehicles; Artificial neural networks; Mathematical model; Neural networks; Pi control; Proportional control; Remotely operated vehicles; Sliding mode control; Underwater vehicles; Vehicle dynamics; Weight control;
Conference_Titel :
OCEANS '94. 'Oceans Engineering for Today's Technology and Tomorrow's Preservation.' Proceedings
Conference_Location :
Brest
Print_ISBN :
0-7803-2056-5
DOI :
10.1109/OCEANS.1994.364183
