Paper Info
Title
Achieving Dependability of Cyber Physical Systems with Autonomic Covering
Abstract
A Cyber-Physical System (CPS) is a network of hybrid systems, combinations of physical entities and software systems that control them. In contrast with an embedded system, a CPS is a large distributed network of many systems that asynchronously interact among themselves as well as directly with the physical world. Consequently, services provided by a CPS must be guaranteed to be dependable in different environmental contexts. Since CPS sites are heterogeneous, both in their hardware and software usage, and autonomous they might use different standards to enforce local dependability. It will be interesting to investigate a global homogeneous framework that automatically and unobtrusively monitors, and enforces dependability for CPS network as a whole. We propose an agent based autonomic architecture that provides global dependable functioning of CPS.
Year
DOI
Venue
2014
10.1109/DASC.2014.34
DASC
Keywords
Field
DocType
software systems,hybrid systems,autonomic covering,physical world,global homogeneous framework,agent based autonomic architecture,dependability,environmental contexts,hardware usage,cyber physical system,autonomic computing,agent architecture,software architecture,embedded system,software fault tolerance,cyber physical systems dependability,large distributed network,cps network,cyber physical system, autonomic computing, dependability, agent architecture,embedded systems,global dependable functioning,physical entities,software usage,software agents,distributed processing,heterogeneous cps sites,security,availability,maintenance engineering
Architecture,Dependability,Autonomic computing,Computer science,Software system,Agent architecture,Cyber-physical system,Hybrid system,Maintenance engineering,Embedded system
Conference
Citations 
PageRank 
References 
1
0.39
14
Authors
2
Name
Order
Citations
PageRank
Kaiyu Wan1198.17
Vangalur S. Alagar216439.10