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| Authors: | Bernhard Tellenbach, Martin Burkhart, Didier Sornette, Thomas Maillart |
| Group: | Communication Systems |
| Type: | Inproceedings |
| Title: | Beyond Shannon: Characterizing Internet Traffic with Generalized Entropy Metrics |
| Year: | 2009 |
| Month: | April |
| Pub-Key: | telle09a |
| Book Titel: | Lecture Notes on Computer Science. Passive and Active Measurement Conference (PAM) |
| Pages: | 239--248 |
| Keywords: | entropy, anomaly detection, netflow, large scale, spectrum patterns |
| Publisher: | Springer-Verlag |
| Abstract: | Tracking changes in feature distributions is very important in the domain of network anomaly detection. Unfortunately, these distributions consist of thousands or even millions of data points. This makes tracking, storing and visualizing changes over time a difficult task. A standard technique for capturing and describing distributions in a compact form is the Shannon entropy analysis. Its use for detecting network anomalies has been studied in-depth and several anomaly detection approaches have applied it with considerable success. However, reducing the information about a distribution to a single number deletes important information such as the nature of the change or it might lead to overlooking a large amount of anomalies entirely. In this paper, we show that a generalized form of entropy is better suited to capture changes in traffic features, by exploring different moments. We introduce the Traffic Entropy Spectrum (TES) to analyze changes in traffic feature distributions and demonstrate its ability to characterize the structure of anomalies using traffic traces from a large ISP. |
| Location: | Berlin, Heidelberg |
| Resources: | [BibTeX] [Paper as PDF] |
