D4SC: Deep Supervised Semantic Segmentation for Seabed Characterization and Uncertainty Estimation for Large Scale Mapping

D4SC: Deep Supervised Semantic Segmentation for Seabed Characterization and Uncertainty Estimation for Large Scale Mapping

Blog Article

Seabed characterization consists in the study of the physical and biological properties of the of ocean floors.Sonar is commonly employed to capture the acoustic backscatter reflected from the seabed.It has been extensively used for automatic target recognition (ATR) within mine countermeasures (MCM) read more operations in shallow waters.

However, conventional machine learning (ML) and deep learning approaches face challenges in automatically mapping the seabed due to noise and limited labels.Thus, this article introduces the Deep Supervised Semantic Segmentation model for Seabed Characterization (D4SC), tailored for addressing challenges associated with sonar data.D4SC employs convolutional neural networks, specific high-resolution (HR) synthetic aperture sonar (SAS) data majicontrast red preprocessing and data augmentation methods, including the novel boundary pixel label rejection, and moves from the low-label regime.

Performance comparisons against standard methods in the literature are conducted, demonstrating D4SC's superiority on challenging HR SAS survey datasets from real-world MCM exercises at sea.In addition, this work thoroughly explores the effect of the quality of the datasets, the robustness of training models on Out-of-Distribution data, and the estimation of epistemic uncertainty to refine predictions at large scale.