Aidan J. Hughes, Keith Worden, Nikolaos Dervilis, Timothy J. Rogers
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Cost-informed dimensionality reduction for structural digital twin technologies
Classification models are a key component of structural digital twin
technologies used for supporting asset management decision-making. An important
consideration when developing classification models is the dimensionality of
the input, or feature space, used. If the dimensionality is too high, then the
`curse of dimensionality' may rear its ugly head; manifesting as reduced
predictive performance. To mitigate such effects, practitioners can employ
dimensionality reduction techniques. The current paper formulates a
decision-theoretic approach to dimensionality reduction for structural asset
management. In this approach, the aim is to keep incurred misclassification
costs to a minimum, as the dimensionality is reduced and discriminatory
information may be lost. This formulation is constructed as an eigenvalue
problem, with separabilities between classes weighted according to the cost of
misclassifying them when considered in the context of a decision process. The
approach is demonstrated using a synthetic case study.
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