Target strength of seahorse (Hippocampus kuda) based on presence dorsal and ventral aspect of brood pouch: a experiment hydroacoustic using artificial neural network

Hydroacoustic technology is a tool can be used to study the behavior of organisms. The target strength of an object is main key in hydroacoustic technology. The value of target strength is strongly influenced by level of hardness of object, in this case the seahorse has a different level of hardness...

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Bibliographic Details
Published in:IOP conference series. Earth and environmental science 2023-03, Vol.1148 (1), p.12020
Main Authors: Apdillah, D, Jaya, I, Manik, H M, Hestirianoto, T, Iqbal, M, Agung, M G, Mamun, A
Format: Article
Language:English
Subjects:
ANN
Artificial neural networks
Backscattering
Brood Pouch
Data recording
Echo sounding
Echosounders
Females
Hardness
Hippocampus hippocampus
Hydroacustic
Males
Neural networks
Seahorse
Surface hardness
Target Strength
Technology
Underwater acoustics
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Summary:Hydroacoustic technology is a tool can be used to study the behavior of organisms. The target strength of an object is main key in hydroacoustic technology. The value of target strength is strongly influenced by level of hardness of object, in this case the seahorse has a different level of hardness between dorsal and ventral aspect. The unique of male seahorse that experiences pregnancy and keeps it’s baby in brood pouch until it hatches. This can be used as a difference between males and females based on value of target strength. Acoustic data recording using single beam scientific echosounder SIMRAD EK-15 and Sonar-4 processing software. The results showed that mean TS value of pregnant male seahorses (with brood pouch) was smaller than of female seahorses (without brood pouch), there were differences in structure composition and anatomy of the brood pouch which backscattering strength to decrease. The artificial neural network shows that there is a difference in response between seahorse (having a brood pouch/male) compared seahorse (without a brood pouch/female). The results showed that was a difference in dorsal aspect of 87.5% and ventral aspect of 98.6%. The results of this study can be used as key to distinguish sex of seahorses using the hydroacoustic method.
ISSN:1755-1307
1755-1315
DOI:10.1088/1755-1315/1148/1/012020