Paper Info
Title
Combining Aspect and Model-Driven Engineering Approaches for Software Process Modeling and Execution
Abstract
One major advantage of executable software process models is that once defined, they can be simulated, checked and validated in short incremental and iterative cycles. This also makes them a powerful asset for important process improvement decisions such as resource allocation, deadlock identification and process management. In this paper, we propose a framework that combines Aspect and Model-Driven Engineering approaches in order to ensure process modeling, simulation and execution. This framework is based upon UML4SPM, a UML2.0-based language for Software Process Modeling and Kermeta, an executable metaprogramming language.
Year
DOI
Venue
2009
10.1007/978-3-642-01680-6_15
ICSP
Keywords
Field
DocType
process management,executable software process model,iterative cycle,model-driven engineering approach,process modeling,model-driven engineering approaches,deadlock identification,0-based language,important process improvement decision,executable metaprogramming language,software process modeling,combining aspect,resource allocation,model driven engineering,process model,uml
Programming language,Software engineering,Model-driven architecture,Computer science,Unified Process,Process modeling,Software development process,Business process modeling,Empirical process (process control model),Kermeta,Goal-Driven Software Development Process
Conference
Volume
ISSN
Citations 
5543
0302-9743
10
PageRank 
References 
Authors
0.65
10
3
Name
Order
Citations
PageRank
Reda Bendraou133426.70
Jean-Marc Jézéquel23050219.89
Franck Fleurey3173085.07