K-Metamodes: frequency- and ensemble-based distributed k-modes clustering for security analytics
September 30, 2019 ยท Declared Dead ยท ๐ International Conference on Machine Learning and Applications
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Authors
Andrey Sapegin, Christoph Meinel
arXiv ID
1909.13721
Category
cs.LG: Machine Learning
Cross-listed
cs.CR,
stat.ML
Citations
5
Venue
International Conference on Machine Learning and Applications
Last Checked
4 months ago
Abstract
Nowadays processing of Big Security Data, such as log messages, is commonly used for intrusion detection purposed. Its heterogeneous nature, as well as combination of numerical and categorical attributes does not allow to apply the existing data mining methods directly on the data without feature preprocessing. Therefore, a rather computationally expensive conversion of categorical attributes into vector space should be utilised for analysis of such data. However, a well-known k-modes algorithm allows to cluster the categorical data directly and avoid conversion into the vector space. The existing implementations of k-modes for Big Data processing are ensemble-based and utilise two-step clustering, where data subsets are first clustered independently, whereas the resulting cluster modes are clustered again in order to calculate metamodes valid for all data subsets. In this paper, the novel frequency-based distance function is proposed for the second step of ensemble-based k-modes clustering. Besides this, the existing feature discretisation method from the previous work is utilised in order to adapt k-modes for processing of mixed data sets. The resulting k-metamodes algorithm was tested on two public security data sets and reached higher effectiveness in comparison with the previous work.
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