von See, Tim-Benedikt, Greinert, Jens and Meurer, Thomas (2025) Multi AUV sediment plume estimation using Bayesian Optimization. Frontiers in Marine Science, 11 . Art.Nr.1504099. DOI 10.3389/fmars.2024.1504099.

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Abstract

Sediment plumes created by dredging or mining activities have an impact on the ecosystem in a much larger area than the mining or dredging area itself. It is therefore important and sometimes mandatory to monitor the developing plume to quantify the impact on the ecosystem including its spatial-temporal evolution. To this end a Bayesian Optimization (BO) based approach is proposed for plume monitoring using autonomous underwater vehicles (AUVs), which are used as a sensor network. Their paths are updated based on the BO and additionally a split-path method and the traveling salesman problem are utilized to account for the distances the AUVs have to travel and to increase the efficiency. To address the time variance of the plume, a sliding-window approach is used in the BO and the dynamics of the plume are modeled by a drift and decay-rate of the suspended particulate matter (SPM) concentration measurements. Simulation results with SPM data from a simulation of a dredge experiment in the Pacific ocean show that the method is able to monitor the plume over space and time with good overall estimation error.

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