Uncertainty Quantification of Trajectory Clustering Applied to Ocean Ensemble Forecasts

Partitioning ocean flows into regions dynamically distinct from their surroundings based on material transport can assist search-and-rescue planning by reducing the search domain. The spectral clustering method partitions the domain by identifying fluid particle trajectories that are similar. The pa...

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Published in	Fluids (Basel) Vol. 5; no. 4; p. 184
Main Authors	Vieira, Guilherme S., Rypina, Irina I., Allshouse, Michael R.
Format	Journal Article
Language	English
Published	Basel MDPI AG 17.10.2020
Subjects	Accuracy Algorithms Boundary conditions Cluster analysis Clustering Domains Drift drifter data Experiments Lagrangian transport Mathematical models Methods ocean ensemble forecast Parameter estimation Parameter sensitivity Particle trajectories Partitioning Similarity measures Simulation spectral clustering Spectral sensitivity Uncertainty uncertainty quantification Velocity Water flow
Online Access	Get full text
ISSN	2311-5521 2311-5521
DOI	10.3390/fluids5040184

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Abstract	Partitioning ocean flows into regions dynamically distinct from their surroundings based on material transport can assist search-and-rescue planning by reducing the search domain. The spectral clustering method partitions the domain by identifying fluid particle trajectories that are similar. The partitioning validity depends on the accuracy of the ocean forecasting, which is subject to several sources of uncertainty: model initialization, limited knowledge of the physical processes, boundary conditions, and forcing terms. Instead of a single model output, multiple realizations are produced spanning a range of potential outcomes, and trajectory clustering is used to identify robust features and quantify the uncertainty of the ensemble-averaged results. First, ensemble statistics are used to investigate the cluster sensitivity to the spectral clustering method free-parameters and the forecast parameters for the analytic Bickley jet, a geostrophic flow model. Then, we analyze an operational coastal ocean ensemble forecast and compare the clustering results to drifter trajectories south of Martha’s Vineyard. This approach identifies regions of low uncertainty where drifters released within a cluster predominantly remain there throughout the window of analysis. Drifters released in regions of high uncertainty tend to either enter neighboring clusters or deviate from all predicted outcomes.
AbstractList	Partitioning ocean flows into regions dynamically distinct from their surroundings based on material transport can assist search-and-rescue planning by reducing the search domain. The spectral clustering method partitions the domain by identifying fluid particle trajectories that are similar. The partitioning validity depends on the accuracy of the ocean forecasting, which is subject to several sources of uncertainty: model initialization, limited knowledge of the physical processes, boundary conditions, and forcing terms. Instead of a single model output, multiple realizations are produced spanning a range of potential outcomes, and trajectory clustering is used to identify robust features and quantify the uncertainty of the ensemble-averaged results. First, ensemble statistics are used to investigate the cluster sensitivity to the spectral clustering method free-parameters and the forecast parameters for the analytic Bickley jet, a geostrophic flow model. Then, we analyze an operational coastal ocean ensemble forecast and compare the clustering results to drifter trajectories south of Martha’s Vineyard. This approach identifies regions of low uncertainty where drifters released within a cluster predominantly remain there throughout the window of analysis. Drifters released in regions of high uncertainty tend to either enter neighboring clusters or deviate from all predicted outcomes.
Author	Vieira, Guilherme S. Allshouse, Michael R. Rypina, Irina I.
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SubjectTerms	Accuracy Algorithms Boundary conditions Cluster analysis Clustering Domains Drift drifter data Experiments Lagrangian transport Mathematical models Methods ocean ensemble forecast Parameter estimation Parameter sensitivity Particle trajectories Partitioning Similarity measures Simulation spectral clustering Spectral sensitivity Uncertainty uncertainty quantification Velocity Water flow
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Title	Uncertainty Quantification of Trajectory Clustering Applied to Ocean Ensemble Forecasts
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