Title :
Combining engineering models with biophysical models to analyze a biological neural network: the electrosensory system of sharks, skates and rays
Author :
Paulin, Michael G. ; Nelson, Mark E.
Author_Institution :
Dept. of Zoology, Otago Univ., Dunedin, New Zealand
Abstract :
The elasmobranch electrosensory system forms a neural representation of weak electrical field sources in the environment. Electrical noise correlated to the animal´s own activity is rejected at an early stage of processing in the brain. The noise rejecting mechanism appears to be a neural analog of an adaptive array filter in the dorsal octavolateral nucleus of the medulla. The authors have applied engineering analysis to build a framework for understanding how the shark´s brain may transform electrosensory data into a representation of its environment. They are fleshing out the skeleton by replacing analytical terms in the engineering model with neural network models based on biological data
Keywords :
brain models; electric fields; neural nets; neurophysiology; adaptive array filter; biological data; biological neural network analysis; biophysical models; dorsal octavolateral nucleus; elasmobranch electrosensory system; electrical noise; electrosensory data; electrosensory system; engineering analysis; engineering models; medulla; neural analog; neural network models; neural representation; noise rejecting mechanism; rays; sharks; skates; weak electrical field sources; Adaptive filters; Biological neural networks; Biological system modeling; Data engineering; Face detection; Filtering; Mouth; Neurons; Noise measurement; Working environment noise;
Conference_Titel :
Artificial Neural Networks and Expert Systems, 1993. Proceedings., First New Zealand International Two-Stream Conference on
Conference_Location :
Dunedin
Print_ISBN :
0-8186-4260-2
DOI :
10.1109/ANNES.1993.323094
