Title :
Predicting the impact of disruptions in BMC3 workflow
Author_Institution :
Alphatech Inc., Burlington, MA, USA
Abstract :
Measures to safeguard or respond to a cyber attack against a BMC 3 (Battle Management/Command, Control and Communications) system will invariably disrupt the processing flow within that system. We would like to predict the impacts of those disruptions beforehand and select information assurance measures that minimize the disruptions, especially to key BMC3 functions. We present an analysis method based on perturbation analysis. The method approximates the nominal BMC3 workflow processing using a Markov model and computes important sensitivity metrics from optimal control theory, most notably cost-to-go and co-state. Initial computational results are encouraging, and indicate that these perturbation methods can predict how disruptions in BMC3 workflow affect mission effectiveness
Keywords :
Markov processes; command and control systems; optimal control; security of data; workflow management software; BMC3 workflow disruptions; Battle Management Command Control and Communications; Markov model; cyber attack; information assurance measures; mission effectiveness; optimal control theory; perturbation analysis; workflow processing; Communication system control; Control systems; Cryptography; Databases; Delay; Fluid flow measurement; Military computing; Optimal control; Perturbation methods; Time factors;
Conference_Titel :
DARPA Information Survivability Conference & Exposition II, 2001. DISCEX '01. Proceedings
Conference_Location :
Anaheim, CA
Print_ISBN :
0-7695-1212-7
DOI :
10.1109/DISCEX.2001.932226
