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Quantification of the Information Loss Resulting from Temporal Aggregation of Wind Turbine Operating Data

: Beretta, Mattia; Pelka, Karoline; Cusido, Jordi; Lichtenstein, Timo

Volltext ()

Applied Sciences 11 (2021), Nr.17, Art. 8065, 30 S.
ISSN: 2076-3417
Bundesministerium fur Wirtschaft und Energie BMWi (Deutschland)
03EE3016B; WiSAbigdata
Bundesministerium fur Wirtschaft und Energie BMWi (Deutschland)
0324336A; ReCoWind
Zeitschriftenaufsatz, Elektronische Publikation
Fraunhofer IWES ()
SCADA; wind energy; operating data; high frequency; information loss; data storage; downsampling; temporal aggregation

SCADA operating data are more and more used across the wind energy domain, both as a basis for power output prediction and turbine health status monitoring. Current industry practice to work with this data is by aggregating the signals at coarse resolution of typically 10-min averages, in order to reduce data transmission and storage costs. However, aggregation, i.e., downsampling, induces an inevitable loss of information and is one of the main causes of skepticism towards the use of SCADA operating data to model complex systems such as wind turbines. This research aims to quantify the amount of information that is lost due to this downsampling of SCADA operating data and characterize it with respect to the external factors that might influence it. The issue of information loss is framed by three key questions addressing effects on the local and global scale as well as the influence of external conditions. Moreover, recommendations both for wind farm operators and researchers are provided with the aim to improve the information content. We present a methodology to determine the ideal signal resolution that minimized storage footprint, while guaranteeing high quality of the signal. Data related to the wind, electrical signals, and temperatures of the gearbox resulted as the critical signals that are largely affected by an information loss upon aggregation and turned out to be best recorded and stored at high resolutions. All analyses were carried out using more than one year of 1 Hz SCADA data of onshore wind farm counting 12 turbines located in the UK.