DocumentCode
1598836
Title
Pressure Derived Wave Height Using Artificial Neural Networks
Author
Tsai, Jen-Chih ; Tsai, Cheng-Han ; Tseng, Hsiang-Mao
Author_Institution
Dept. of Marine Environ. Inf., Nat. Taiwan Ocean Univ., Keelung
fYear
2008
Firstpage
1
Lastpage
8
Abstract
Underwater ultrasonic acoustic transducers are widely used for ocean wave measurements, since they measure surface wave directly. However, their effectiveness may be severely affected under rough sea conditions. In which breaking waves generate bubbles, which in turn interfere with acoustic signals. Therefore, when the seas are rough, one often has to rely on pressure transducer, which is generally used as a back up for the acoustic wave gauge. Then one uses a pressure transfer function to obtain the surface wave information. This study used the artificial neural network to convert pressure signal to significant and maximum wave height, using data obtained from various water depths. The results showed that the wave height obtained from the artificial neural network was more accurate than that from using linear pressure transfer function for water depth larger than 20 m.
Keywords
acoustic signal processing; geophysics computing; neural nets; ocean waves; oceanographic equipment; pressure; ultrasonic transducers; acoustic signal conversion; acoustic wave gauge; artificial neural network; ocean wave measurements; pressure derived wave height; pressure transducer; pressure transfer function; rough sea conditions; underwater ultrasonic acoustic transducers; Acoustic measurements; Acoustic transducers; Acoustic waves; Artificial neural networks; Rough surfaces; Sea measurements; Sea surface; Surface acoustic waves; Surface roughness; Ultrasonic variables measurement;
fLanguage
English
Publisher
ieee
Conference_Titel
OCEANS 2008 - MTS/IEEE Kobe Techno-Ocean
Conference_Location
Kobe
Print_ISBN
978-1-4244-2125-1
Electronic_ISBN
978-1-4244-2126-8
Type
conf
DOI
10.1109/OCEANSKOBE.2008.4531043
Filename
4531043
Link To Document