Supporting the page-hinkley test with empirical mode decomposition for change detection

In the dynamic scenarios faced nowadays, when handling non stationary data streams it is of utmost importance to perform change detection tests. In this work, we propose the Intrinsic Page Hinkley Test (iPHT), which enhances the Page Hinkley Test (PHT) eliminating the user-defined parameter (the all...

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Bibliographic Details
Main Author: Sebastião, Raquel (author)
Other Authors: Fernandes, José Maria (author)
Format: bookPart
Language:eng
Published: 2017
Subjects:
Change detection
Data streams
Empirical Mode Decomposition
Page Hinkley Test
Personalized Approach
Sliding Windows
Online Access:http://hdl.handle.net/10773/18961
Country:Portugal
Oai:oai:ria.ua.pt:10773/18961
Description
Summary:In the dynamic scenarios faced nowadays, when handling non stationary data streams it is of utmost importance to perform change detection tests. In this work, we propose the Intrinsic Page Hinkley Test (iPHT), which enhances the Page Hinkley Test (PHT) eliminating the user-defined parameter (the allowed magnitude of change of the data that are not considered real distribution change of the data stream) by using the second order intrinsic mode function (IMF) which is a data dependent value reflecting the intrinsic data variation. In such way, the PHT change detection method is expected to be more robust and require less tunes. Furthermore, we extend the proposed iPHT to a blockwise approach. Computing the IMF over sliding windows, which is shown to be more responsive to changes and suitable for online settings. The iPHT is evaluated using artificial and real data, outperforming the PHT. © Springer International Publishing AG 2017.

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