Paper Info
Title
Design and Development Methodology for Resilient Cyber-Physical Systems
Abstract
Mission-critical cyber-physical systems must be resilient to all classes of failures, both hardware and software components. Failures affecting a systempsilas ability to accurately control its physical actions are of special concern, requiring a meta-level monitoring and reaction ability to enable high-performance nominal and safe post-failure operation. This paper addresses these challenges by unifying formal software engineering with a suite of feedback control laws and efficient resource monitoring within a comprehensive design and development methodology.
Year
DOI
Venue
2008
10.1109/ICDCS.Workshops.2008.62
ICDCS Workshops
Keywords
Field
DocType
comprehensive design,cyber-physical system,formal software engineering,software component,software reliability,feedback control law,mission-critical cyber-physical system,resilient cyber-physical systems,development methodology,efficient resource monitoring,reaction ability,feedback,embedded system design,feedback control,physical action,monitoring,software engineering,meta-level monitoring,software systems,cyber physical system,design methodology,control systems,stability,distributed computing,cyber physical systems,system testing
Systems engineering,System testing,Computer science,Design methods,Real-time computing,Software system,Cyber-physical system,Condition monitoring,Control system,Component-based software engineering,Software quality
Conference
ISSN
ISBN
Citations 
1545-0678 E-ISBN : 978-0-7695-3173-1
978-0-7695-3173-1
5
PageRank 
References 
Authors
0.42
2
6
Name
Order
Citations
PageRank
Honguk Woo113916.19
Jianliang Yi2282.07
James C. Browne3998300.57
Aloysius K. Mok490978.90
Ella Atkins5575.82
Fei Xie621318.85