Title :
Emergency Control Cockpit
Author :
Delic, Kemal A. ; Riley, Jeff A.
Author_Institution :
Hewlett-Packard Co., Grenoble, France
Abstract :
We live in a world of very large-scale systems which can be described as global, very fast, and often saturated with uncertainty. Talking about global communication and energy supply systems, interconnected financial markets, global business operation platforms or contemporary large social networks, we usually deal with normal operating regimes (~99% of time) while systems might switch into unstable regimes (~1% of time). Very rarely those systems end in emergency state which might degenerate into major catastrophe (huge human, material, environment losses). In this paper we describe the architecture and design details of an emergency control cockpit system, enabling better management of various system crises.
Keywords :
aerospace computing; aerospace safety; emergency management; large-scale systems; contemporary large social networks; emergency control cockpit system; energy supply systems; global business operation platforms; global communication; interconnected financial markets; normal operating regimes; system crisis management; very large-scale systems; Business; Cloud computing; Computer architecture; Control systems; Large-scale systems; Monitoring; Servers; Emergency; architecture; cockpit; control; design;
Conference_Titel :
Database and Expert Systems Applications (DEXA), 2013 24th International Workshop on
Conference_Location :
Los Alamitos, CA
Print_ISBN :
978-0-7695-5070-1
DOI :
10.1109/DEXA.2013.10
