General Anomaly Detection of Underwater Gliders Validated by Large-scale Deployment Dataset

This paper employs an anomaly detection algorithm to assess the normal operation of underwater gliders in unpredictable ocean environments. Real-time alerts can be provided to glider pilots upon detecting any anomalies, enabling them to assume control of the glider and prevent further harm. The detection algorithm is applied to abundant data sets collected in real glider deployments led by the Skidaway Institute of Oceanography (SkIO) and the University of South Florida (USF). Regarding generality, the experimental evaluation is composed of both offline and online detection modes. The offline detection utilizes full post-recovery data sets, which carries high-resolution information, to present detailed analysis of the anomaly and compare it with pilot logs. The online detection focuses on the real-time subsets of data transmitted from the glider at the surfacing events. While the real-time data may not contain as much rich information as the post-recovery data, the online detection is of great importance as it allows glider pilots to monitor potential abnormal conditions in real time.

Real-time Autonomous Glider Navigation Software

Underwater gliders are widely utilized for ocean sampling, surveillance, and other various oceanic applications. In the context of complex ocean environments, gliders may yield poor navigation performance due to strong ocean currents, thus requiring substantial human effort during the manual piloting process. To enhance navigation accuracy, we developed a real-time autonomous glider navigation software, named GENIoS Python, which generates waypoints based on flow predictions to assist human piloting. The software is designed to closely check glider status, provide customizable experiment settings, utilize lightweight computing resources, offer stably communicate with dockservers, robustly run for extended operation time, and quantitatively compare flow estimates, which add to its value as an autonomous tool for underwater glider navigation.

Anomaly Detection of Underwater Gliders Verified by Deployment Data

This paper utilizes an anomaly detection algorithm to check if underwater gliders are operating normally in the unknown ocean environment. Glider pilots can be warned of the detected glider anomaly in real time, thus taking over the glider appropriately and avoiding further damage to the glider. The adopted algorithm is validated by two valuable sets of data in real glider deployments, the University of South Florida (USF) glider Stella and the Skidaway Institute of Oceanography (SkIO) glider Angus.