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Controlling buoyancy-driven profiling floats for applications in ocean observation

Version 2 2024-06-04, 07:42
Version 1 2016-10-13, 10:34
journal contribution
posted on 2024-06-04, 07:42 authored by RN Smith, Van Thanh HuynhVan Thanh Huynh
Establishing a persistent presence in the ocean with an Autonomous Underwater Vehicle capable of observing temporal variability of large-scale ocean processes requires a unique sensor platform. In this paper, we examine the utility of vehicles that can only control their depth in the water column for such extended deployments. We present a strategy that utilizes ocean model predictions to facilitate a basic level of autonomy and enables general control for these profiling floats. The proposed method is based on experimentally-validated techniques for utilising ocean current models to control autonomous gliders. With the appropriate vertical actuation, and utilising spatiotemporal variations in water speed and direction, we show that general controllability results can be met. First, we apply an A* planner to a local controllability map generated from predictions of ocean currents. This computes a path between start and goal waypoints that has the highest likelihood of successful execution. A computed depth plan is generated with a model predictive controller, and selects the depths for the vehicle so that ambient currents guide it toward the goal. Mission constraints are included to simulate and motivate a practical data collection mission. Results are presented in simulation for a mission off the coast of Los Angeles, CA USA, that show encouraging results in the ability of a drifting vehicle to reach a desired location.

History

Journal

IEEE Journal of Oceanic Engineering

Volume

39

Pagination

571-586

Location

United States

ISSN

0364-9059

Language

eng

Publication classification

C Journal article, C1.1 Refereed article in a scholarly journal

Copyright notice

Institute of Electrical and Electronics Engineers, 2014

Issue

3

Publisher

Institute of Electrical and Electronics Engineers