Title :
Hybrid fuzzy-neural flow identification methodology
Author :
Mi, Y. ; Tsoukalas, L.H. ; Ishii, M. ; Li, M. ; Xiao, Z.
Author_Institution :
Purdue Univ., West Lafayette, IN, USA
Abstract :
In many engineering systems non-intrusive correct identification of flow regime is of great importance to performance and safety. Undesirable flow regimes may cause valves and pumps to wear, pipe leaks, even hazardous or catastrophic incidents. A non-intrusive methodology for flow identification in a two-phase flow loop is presented. The methodology relies on a fuzzy-neural hybrid system processing and interpreting impedance based measurements. The results suggest that fuzzy-neural classifiers are appropriate tools for flow regime identification
Keywords :
fault diagnosis; flow control; fuzzy neural nets; identification; pattern classification; process control; two-phase flow; engineering systems; feedforward neural network; flow pattern classification; fuzzy logic; fuzzy-neural classifiers; fuzzy-neural flow identification; hybrid neurofuzzy system; impedance based measurements; process control; two-phase flow loop; Biomedical measurements; Electrodes; Fluctuations; Fluid flow; Fluid flow measurement; Food industry; Impedance measurement; Neural networks; Petroleum industry; Probes;
Conference_Titel :
Fuzzy Systems, 1996., Proceedings of the Fifth IEEE International Conference on
Conference_Location :
New Orleans, LA
Print_ISBN :
0-7803-3645-3
DOI :
10.1109/FUZZY.1996.552370
