Network intrusion detection is a key security issue that can be tackled by means of different approaches. This paper describes a novel methodology for network attack detection based on the use of data mining techniques to process traffic information collected by a monitoring station from a set of hosts using the Simple Network Management Protocol (SNMP). The proposed approach, adopting unsupervised clustering techniques, allows to effectively distinguish normal traffic behavior from malicious network activity and to determine with very good accuracy what kind of attack is being perpetrated. Several monitoring stations are then interconnected according to any peer-to-peer network in order to share the knowledge base acquired with the proposed methodology, thus increasing the detection capabilities. An experimental test-bed has been implemented, which reproduces the case of a real web server under several attack techniques. Results of the experiments show the effectiveness of the proposed solution, with no detection failures of true attacks and very low false-positive rates (i.e. false alarms).
W. Cerroni, G. Monti, G. Moro, M. Ramilli (2009). Network Attack Detection Based on Peer-to-Peer Clustering of SNMP Data. BERLIN : Springer.
Network Attack Detection Based on Peer-to-Peer Clustering of SNMP Data
CERRONI, WALTER;MORO, GIANLUCA;RAMILLI, MARCO
2009
Abstract
Network intrusion detection is a key security issue that can be tackled by means of different approaches. This paper describes a novel methodology for network attack detection based on the use of data mining techniques to process traffic information collected by a monitoring station from a set of hosts using the Simple Network Management Protocol (SNMP). The proposed approach, adopting unsupervised clustering techniques, allows to effectively distinguish normal traffic behavior from malicious network activity and to determine with very good accuracy what kind of attack is being perpetrated. Several monitoring stations are then interconnected according to any peer-to-peer network in order to share the knowledge base acquired with the proposed methodology, thus increasing the detection capabilities. An experimental test-bed has been implemented, which reproduces the case of a real web server under several attack techniques. Results of the experiments show the effectiveness of the proposed solution, with no detection failures of true attacks and very low false-positive rates (i.e. false alarms).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.