Abstract Anomaly detection based on telemetry data is a prominent health condition monitoring task that plays an increasingly crucial role in identifying unexpected events and improving overall satellite reliability. In this paper, a new hybrid data-driven framework for satellite telemetry data anomaly detection is constructed by an integration of ensemble empirical mode decomposition with complexity deviation index and grey wolf optimizer-optimized support vector machine. Initially, the ensemble empirical mode decomposition algorithm is employed to decompose the raw telemetry data into a collection of intrinsic mode functions that represent different inherent oscillatory modes or characteristics. A critical intrinsic mode function selection method, i.e., the complexity deviation index method, is proposed based on the sample entropy theory to select the most appropriate intrinsic mode functions with the goal of improving the sufficiency of the ensemble empirical mode decomposition algorithm and enhancing the anomalous characteristics of the telemetry data. Subsequently, a grey wolf optimizer-optimized support vector machine model is developed to forecast the variation tendency of the synthesized series of the selected intrinsic mode functions. The prediction residual between the ground truth and model estimator is calculated and the optimal threshold for anomaly detection is set according to the principle of maximum Youden index. Finally, the proposed method is applied to analyze and detect anomalies in telemetry data collected from a real-world satellite. The experimental results verify the capability of the proposed method in anomaly detection for satellite telemetry data.
Highlights An ensemble empirical mode decomposition algorithm with complexity deviation index is presented to select critical features. A grey wolf optimizer-optimized support vector machine model is developed to forecast and identify anomalies. A new hybrid data-driven framework for satellite telemetry data anomaly detection is proposed. Efficiency of proposed method is verified by real-world telemetry datasets.
A hybrid data-driven framework for satellite telemetry data anomaly detection
Acta Astronautica ; 205 ; 281-294
2023-02-04
14 pages
Article (Journal)
Electronic Resource
English
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