Evolutionary design of a multi-ANN control structure for a submersible catamaran

Author

Lamas, A. ; Ibarz, J. Fernández ; Pena, F. Lopez ; Duro, R.J.

Author_Institution

Grupo de Sistemas Autonomos, Univ. da Coruna, Ferrol, Spain

fYear

2003

fDate

29-31 July 2003

Firstpage

32

Lastpage

37

Abstract

The development of an automatic design environment for obtaining artificial neural network based control system structures for complex underwater vehicles is presented. The design procedure is carried out by means of evolutionary techniques from a set of specifications using as a fitness evaluator a new type of hydrodynamic simulator based on added mass constants. The model´s equations of motion employed were obtained by combining theoretical formulae with experimental data. The resulting design environment, called ADEUS, was used to obtain the neural network based controllers for a submarine catamaran. Results of the simulations obtained using this technique, of the application of the automatic design procedure and of the operation of the controllers thus obtained are presented.

Keywords

control system CAD; evolutionary computation; hydrodynamics; neurocontrollers; underwater vehicles; artificial neural network; automatic design environment; complex underwater vehicles; controllers; evolutionary design; evolutionary techniques; fitness evaluator; hydrodynamic simulator; mass constants; motion model equations; multiANN control structure; submarine catamaran; Automatic control; Control systems; Equations; Fuzzy neural networks; Hydrodynamics; Neural networks; Optimal control; Process design; Underwater vehicles; Vehicle dynamics;

fLanguage

English

Publisher

ieee

Conference_Titel

Computational Intelligence for Measurement Systems and Applications, 2003. CIMSA '03. 2003 IEEE International Symposium on

Print_ISBN

0-7803-7783-4

Type

conf

DOI

10.1109/CIMSA.2003.1227197

Filename

1227197