CRATOS: Cogination of Reliable Algorithm for Time-series Optimal Solution
Anomaly detection of time series plays an important role in reliability systems engineering. However, in practical application, there is no precisely defined boundary between normal and anomalous behaviors in different application scenarios. Therefore, different anomaly detection algorithms and processes ought to be adopted for time series in different situation. Although such strategy improve the accuracy of anomaly detection, it takes a lot of time for engineers to configure millions of different algorithms to different series, which greatly increases the development and maintenance cost of anomaly detection processes. In this paper, we propose CRATOS which is a self-adapt algorithms that extract features for time series, and then cluster series with similar features into one group. For each group we utilize evolution algorithm to search the best anomaly detection methods and processes. Our methods can significantly reduce the cost of development and maintenance. According to our experiments, our clustering methods achieves the state-of-art results. Compared with the accuracy (93.4 configure for different time series manually, our algorithms is not far behind in detecting accuracy (85.1
READ FULL TEXT