Abstract
An understanding of the distribution and extent of marine habitats is essential for the implementation of ecosystem-based management strategies. Historically this had been difficult in marine environments until the advancement of acoustic sensors. This study demonstrates the applicability of supervised learning techniques for benthic habitat characterization using angular backscatter response data. With the advancement of multibeam echo-sounder (MBES) technology, full coverage datasets of physical structure over vast regions of the seafloor are now achievable. Supervised learning methods typically applied to terrestrial remote sensing provide a cost-effective approach for habitat characterization in marine systems. However the comparison of the relative performance of different classifiers using acoustic data is limited. Characterization of acoustic backscatter data from MBES using four different supervised learning methods to generate benthic habitat maps is presented. Maximum Likelihood Classifier (MLC), Quick, Unbiased, Efficient Statistical Tree (QUEST), Random Forest (RF) and Support Vector Machine (SVM) were evaluated to classify angular backscatter response into habitat classes using training data acquired from underwater video observations. Results for biota classifications indicated that SVM and RF produced the highest accuracies, followed by QUEST and MLC, respectively. The most important backscatter data were from the moderate incidence angles between 30° and 50°. This study presents initial results for understanding how acoustic backscatter from MBES can be optimized for the characterization of marine benthic biological habitats.
Highlights
Quantitative analysis of acoustic backscatter intensity from multibeam echo-sounder (MBES)provides valuable information for mapping of seafloor habitats
This was followed by Random Forest (RF), QUEST
This study extends the approach presented by Rzhanov et al [14] combining the angular response analysis with information from the segmented backscatter image for characterizing biota habitats
Summary
Quantitative analysis of acoustic backscatter intensity from multibeam echo-sounder (MBES)provides valuable information for mapping of seafloor habitats. The importance of preserving the effect of incidence angle from angular backscatter intensity to characterize seafloor types is well established [1,2,3,4] These works have primarily focused on developing models for seafloor sediment characterization, some studies have incorporated this information for the discrimination of benthic biota [5,6,7,8,9]. Angular backscatter from MBES and side scan sonar are a product of two acoustic scattering processes; volume and interface scatterings [11]. Near nadir and outer angles are still required for the geo-acoustic inversion process and for the construction of a generic model from angular response information [1,3]. This study will assess the interaction of different angular domains for class differentiation
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