Title :
Risk Assessment of Security Systems Based on Entropy Theory and Neyman-Pearson Criterion
Author :
Haitao Lv ; Ruimin Hu
Author_Institution :
Nat. Eng. Res. Center for Multimedia Software, Wuhan Univ. Wuhan, Wuhan, China
Abstract :
For a security system, the risk assessment is an important metric to judge whether the protection effectiveness of a security system is good or not. In this paper, the security systems deployed in a guard field are regarded abstractly as a diagram of security network. Firstly a method about risk assessment based on entropy theory and Neyman-Pearson criterion is proposed. Secondly, the most vulnerable path formulation of a security network is described and a solution by utilizing the Dijkstra´s shortest path algorithm is provided. The protection probability on the most vulnerable path is considered as the risk measure of a security network. Furthermore, we study the effects of some parameters on the risk and the breach protection probability and present simulations. Ultimately, we can gain insight about the risk of a security network.
Keywords :
entropy; graph theory; probability; risk management; security; statistics; Dijkstra shortest path algorithm; Neyman-Pearson criterion; breach protection probability; entropy theory; guard field; security network diagram; security network vulnerable path formulation; security system risk assessment; Computational modeling; Educational institutions; Entropy; Gaussian distribution; Risk management; Security; Shape; Neyman-Person Criterion; Risk Entropy; Security Network; Security System; Vulnerable Path;
Conference_Titel :
Computer Sciences and Applications (CSA), 2013 International Conference on
Conference_Location :
Wuhan
