Jose Fuentes scite author profile

Scientists continue to study the red tide and fish-kill events happening in Florida. Machine learning applications using remote sensing data on coastal waters to monitor water quality parameters and detect harmful algal blooms are also being studied. Unmanned Surface Vehicles (USVs) and Autonomous Underwater Vehicles (AUVs) are often deployed on data collection and disaster response missions. To enhance study and mitigation efforts, robots must be able to use available data to navigate these underwater environments. In this study, we compute a satellite-derived underwater environment (SDUE) model by implementing a supervised machine learning model where remote sensing reflectance (Rrs) indices are labeled with in-situ data they correlate with. The models predict bathymetry and water quality parameters given a recent remote sensing image. In our experiment, we use Sentinel-2 (S2) images and in-situ data of the Biscayne Bay to create an SDUE that can be used as a Chlorophyll-a map. The SDUE is then used in an Extended Kalman Filter (EKF) application that solves an underwater vehicle localization and navigation problem.

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Combining Multi-Satellite Remote and In-Situ Sensing for Autonomous Underwater Vehicle Localization and Navigation

Rojas

Padrao

Fuentes

et al. 2023

Preprint

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Jose Fuentes

Localization in Seemingly Sensory-Denied Environments through Spatio-Temporal Varying Fields

Combining Remote and In-situ Sensing for Autonomous Underwater Vehicle Localization and Navigation

Combining Multi-Satellite Remote and In-Situ Sensing for Autonomous Underwater Vehicle Localization and Navigation

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