Title :
Acute toxicant warning system based on a fish movement analysis by use of AI concept
Author :
Nogita, S. ; Baba, K. ; Yahagi, H. ; Watanabe, S. ; Mori, S.
Author_Institution :
Hitachi Ltd., Ibaraki, Japan
Abstract :
A fish automonitoring system was developed which enables monitoring for the presence of acute toxicants in water, continuously and quantitatively, based on an image recognition and knowledge-based system. A fish image was first recognized online and then its movement pattern was analyzed. Statistical characteristics of the fish-movement pattern in the water tank were applied to evaluate acute-toxicant presence in the water, based on production rules which were gathered in a series of experiments. The knowledge based was simplified through the aid of image analysis of movement patterns, although the visual observations themselves included complicated information.<>
Keywords :
alarm systems; aquaculture; computerised monitoring; computerised pattern recognition; knowledge based systems; water pollution detection and control; acute toxicants; artificial intelligence; fish automonitoring system; fish movement analysis; image analysis; image recognition; knowledge-based system; production rules; statistical characteristics; visual observations; warning system; water tank; Alarm systems; Image analysis; Image recognition; Knowledge based systems; Marine animals; Monitoring; Pattern analysis; Pattern recognition; Production; Water;
Conference_Titel :
Artificial Intelligence for Industrial Applications, 1988. IEEE AI '88., Proceedings of the International Workshop on
Conference_Location :
Hitachi City, Japan
DOI :
10.1109/AIIA.1988.13305
