Understanding Intrusion Detection Through Visualization [electronic resource] /
by Stefan Axelsson, David Sands.
- XX, 145 p. 34 illus. online resource.
- Advances in Information Security, 24 1568-2633 ; .
- Advances in Information Security, 24 .
An Introduction to Intrusion Detection -- The Base-Rate Fallacy and the Difficulty of Intrusion Detection -- Visualizing Intrusions: Watching the Webserver -- Combining a Bayesian Classifier with Visualization: Understanding the IDS -- Visualizing the Inner Workings of a Self Learning Classifier: Improving the Usability of Intrusion Detection Systems -- Visualization for Intrusion Detection—Hooking the Worm -- Epilogue.
With the ever increasing use of computers for critical systems, computer security that protects data and computer systems from intentional, malicious intervention, continues to attract significant attention. Among the methods for defense, the application of a tool to help the operator identify ongoing or already perpetrated attacks (intrusion detection), has been the subject of considerable research in the past ten years. A key problem with current intrusion detection systems is the high number of false alarms they produce. Understanding Intrusion Detection through Visualization presents research on why false alarms are, and will remain a problem; then applies results from the field of information visualization to the problem of intrusion detection. This approach promises to enable the operator to identify false (and true) alarms, while aiding the operator to identify other operational characteristics of intrusion detection systems. This volume presents four different visualization approaches, mainly applied to data from web server access logs. Understanding Intrusion Detection through Visualization is structured for security professionals, researchers and practitioners. This book is also suitable for graduate students in computer science.
9780387276366
10.1007/0-387-27636-X doi
Computer science. Computer communication systems. Data structures (Computer science). Data encryption (Computer science). Computer graphics. Pattern recognition. Computer Science. Data Encryption. Computer Imaging, Vision, Pattern Recognition and Graphics. Pattern Recognition. Data Structures, Cryptology and Information Theory. Computer Communication Networks.