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Time Series Data Augmentation for Deep Learning: A Survey

Qingsong Wen, Liang Sun, Fan Yang, Xiaomin Song, Jingkun Gao, Xue Wang, Huan Xu

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Abstract

Deep learning performs remarkably well on many time series analysis tasks recently. The superior performance of deep neural networks relies heavily on a large number of training data to avoid overfitting. However, the labeled data of many real-world time series applications may be limited such as classification in medical time series and anomaly detection in AIOps. As an effective way to enhance the size and quality of the training data, data augmentation is crucial to the successful application of deep learning models on time series data. In this paper, we systematically review different data augmentation methods for time series. We propose a taxonomy for the reviewed methods, and then provide a structured review for these methods by highlighting their strengths and limitations. We also empirically compare different data augmentation methods for different tasks including time series classification, anomaly detection, and forecasting. Finally, we discuss and highlight five future directions to provide useful research guidance.

Topics & Concepts

Computer scienceTime seriesDeep learningAnomaly detectionMachine learningArtificial intelligenceSeries (stratigraphy)Data miningArtificial neural networkData qualityTraining setInterpretabilityData modelingQuality (philosophy)Data typeAnomaly (physics)Deep neural networksTime Series Analysis and ForecastingAnomaly Detection Techniques and ApplicationsData Stream Mining Techniques