To main content

Anomaly detection method based on the deep knowledge behind behavior patterns in industrial components. Application to a hydropower plant

Abstract

This paper describes a new methodology that aims to cover a gap detected in the area of detection of anomalies and diagnosis of industrial component behaviors: there is a need of robust procedures compatible with dynamic behaviors and degradations that evolve over time. The method proposed is based on the creation of behavior patterns of industrial components using well-known unsupervised machine learning algorithms such as K-means and Self-Organizing maps (SOMs) as a starting point. An algorithm based on local Probability Density Distributions (PDD) of the clusters obtained is used to enhance the characterization of patterns. The joint use of these algorithms facilitates a new way to detect anomalies and the surveillance of their progress. The paper includes an example of an application of the method proposed for monitoring the bearing temperature of a turbine in a hydropower plant showing how this method can be applied in behavior and maintenance assessment applications. The results obtained prove the advantages and possibilities that the proposed methodology has on real world applications.

Keywords
Anomaly detectionpattern discoverynormal behavior characterizationmaintenance assessmentself-organizing mapsk-meansprobability density functionshydropower plant

Category

Academic article

Client

  • Research Council of Norway (RCN) / 245317

Language

English

Author(s)

  • Pablo Calvo-Bascones
  • Miguel A. Sanz-Bobi
  • Thomas Michael Welte

Affiliation

  • Pontifical University Comillas
  • SINTEF Energy Research / Energisystemer

Year

2020

Published in

Computers in industry (Print)

ISSN

0166-3615

Volume

125

View this publication at Cristin