Distributed denial of service attack detection using an ensemble of neural classifier
Computer Communications
CAFS: a novel lightweight cache-based scheme for large-scale intrusion alert fusion
Concurrency and Computation: Practice & Experience
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Statistical pattern recognition techniques have recently been shown to provide a finer balance between misdetections and false alarms than the more conventional intrusion detection approaches, namely misuse detection and anomaly detection. A variety of classical machine learning and pattern recognition algorithms has been applied to intrusion detection with varying levels of success. We make two observations about intrusion detection. One is that intrusion detection is significantly more effective by using multiple sources of information in an intelligent way, which is precisely what human experts rely on. Second, different errors in intrusion detection have different costs associated with them-a simplified example being that a false alarm may be more expensive than a misdetection and, hence, the true objective function to be minimized is the cost of errors and not the error rate itself. We present a pattern recognition approach that addresses both of these issues. It utilizes an ensemble of a classifiers approach to intelligently combine information from multiple sources and is explicitly tuned toward minimizing the cost of the errors as opposed to the error rate itself. The information fusion approach dLEARNIN alone is shown to achieve state-of-the-art performances better than those reported in the literature so far, and the cost minimization strategy dCMS further reduces the cost with a significant margin.