Anomaly detection using real-valued negative selection

Authors

Fabio A. González, University of MemphisFollow
Dipankar Dasgupta, University of MemphisFollow

Abstract

This paper describes a real-valued representation for the negative selection algorithm and its applications to anomaly detection. In many anomaly detection applications, only positive (normal) samples are available for training purpose. However, conventional classification algorithms need samples for all classes (e.g. normal and abnormal) during the training phase. This approach uses only normal samples to generate abnormal samples, which are used as input to a classification algorithm. This hybrid approach is compared against an anomaly detection technique that uses self-organizing maps to cluster the normal data sets (samples). Experiments are performed with different data sets and some results are reported.

Publication Title

Genetic Programming and Evolvable Machines

Recommended Citation

González, F., & Dasgupta, D. (2003). Anomaly detection using real-valued negative selection. Genetic Programming and Evolvable Machines, 4 (4), 383-403. https://doi.org/10.1023/A:1026195112518