Paper Info
Title
A Model-Driven Engineering Framework for Fault Tolerance in Dependable Embedded Systems Design
Abstract
This paper proposes a model based framework for the design of dependable embedded systems. First we define a meta-model to encompass the di?erent concepts to capture fault tolerance. This will be used to derive a UML profile for the specification and the management of the redundancy. Based on this profile, we propose a model library as reusable and compos able UML components to construct a fault tolerant infrastructure. As proof of concept, a GPS use case with fault tolerance requirements is evaluated using the proposed framework.
Year
DOI
Venue
2012
10.1109/SEAA.2012.47
Software Engineering and Advanced Applications
Keywords
Field
DocType
systems design,erent concept,fault tolerance requirement,compos able uml component,fault tolerant infrastructure,fault tolerance,model-driven engineering framework,proposed framework,uml profile,model library,gps use case,dependable embedded system,meta model,redundancy,software fault tolerance,global positioning system,formal specification,model driven engineering,unified modeling language,embedded systems
Systems engineering,Unified Modeling Language,Model-driven architecture,Computer science,Software fault tolerance,Real-time computing,Formal specification,Proof of concept,Redundancy (engineering),Fault tolerance,Metamodeling,Embedded system
Conference
ISSN
ISBN
Citations 
1089-6503
978-1-4673-2451-9
8
PageRank 
References 
Authors
0.53
5
3
Name
Order
Citations
PageRank
Adel Ziani1323.28
Brahim Hamid213624.73
Jean-Michel Bruel343173.95