Title :
Automated Gelatinous Zooplankton Acquisition and Recognition
Author :
Corgnati, Lorenzo ; Mazzei, Luca ; Marini, Simone ; Aliani, Stefano ; Conversi, Alessandra ; Griffa, Annalisa ; Isoppo, Bruno ; Ottaviani, Ennio
Author_Institution :
ISMAR (Marine Sci. Inst.), Lerici, Italy
Abstract :
Much is still unknown about marine plankton abundance and dynamics in the open and interior ocean. Especially challenging is the knowledge of gelatinous zooplankton distribution, since it has a very fragile structure and cannot be directly sampled using traditional net based techniques. In the last decades there has been an increasing interest in the oceanographic community toward imaging systems. In this paper the performance of three diffierent methodologies, Tikhonov regulariza- tion, Support Vector Machines, and Genetic Programming, are analyzed for the recognition of gelatinous zooplankton. The three methods have been tested on images acquired in the Ligurian Sea by a low cost under- water standalone system (GUARD1). The results indicate that the three methods provide gelatinous zooplankton identication with high accu- racy showing a good capability in robustly selecting relevant features, thus avoiding computational-consuming preprocessing stages. These aspects fit the requirements for running on an autonomous imaging system designed for long lasting deployments.
Keywords :
biology computing; feature extraction; feature selection; genetic algorithms; imaging; microorganisms; support vector machines; Ligurian Sea; Tikhonov regularization; autonomous imaging system; computational-consuming preprocessing; fragile structure; gelatinous zooplankton distribution; gelatinous zooplankton identification; gelatinous zooplankton recognition; genetic programming; marine plankton abundance; oceanographic community; pattern recognition; support vector machines; underwater standalone system; Feature extraction; Genetic programming; Image recognition; Image segmentation; Imaging; Kernel; Support vector machines; GUARD1; autonomous vehicle; feature selection; gelatinous zooplankton; pattern recognition; underwater camera; underwater imag- ing;
Conference_Titel :
Computer Vision for Analysis of Underwater Imagery (CVAUI), 2014 ICPR Workshop on
Conference_Location :
Stockholm
Print_ISBN :
978-1-4799-6709-4
DOI :
10.1109/CVAUI.2014.12
