Paper Info
Title
An End-to-End Framework for Business Compliance in Process-Driven SOAs
Abstract
It is significant for companies to ensure their businesses conforming to relevant policies, laws, and regulations as the consequences of infringement can be serious. Unfortunately, the divergence and frequent changes of different compliance sources make it hard to systematically and quickly accommodate new compliance requirements due to the lack of an adequate methodology for system and compliance engineering. In addition, the difference of perception and expertise of multiple stakeholders involving in system and compliance engineering further complicates the analyzing, implementing, and assessing of compliance. For these reasons, in many cases, business compliance today is reached on aper-case basis by using ad hoc, hand-crafted solutions for specific rules to which they must comply. This leads in the long run to problems regarding complexity, understandability, and maintainability of compliance concerns in a SOA. To address the aforementioned challenges, we present in this invited paper a comprehensive SOA business compliance software framework that enables a business to express, implement, monitor, and govern compliance concerns.
Year
DOI
Venue
2010
10.1109/SYNASC.2010.52
SYNASC
Keywords
Field
DocType
end-to-end framework,adequate methodology,multiple stakeholders,event processing,runtime monitoring,view-based,domain-specific languages,governance dashboard,ad hoc hand-crafted solutions,model-driven development,commerce,compliance requirements,new compliance requirement,process-driven soa,compliance concern,compliance engineering,service-oriented architecture,frequent change,different compliance source,business compliance,comprehensive soa business compliance,comprehensive soa business compliance software framework,aper-case basis,aforementioned challenge,process-driven soas,engines,software framework,service oriented architecture,domain specific language,domain specific languages,quality of service
Domain-specific language,Computer security,Work in process,Computer science,End-to-end principle,Complex event processing,Quality of service,Theoretical computer science,Risk analysis (engineering),Service-oriented architecture,Software framework,Maintainability
Conference
ISSN
ISBN
Citations 
2470-8801
978-1-4244-9816-1
6
PageRank 
References 
Authors
0.48
17
12
Name
Order
Citations
PageRank
Huy Tran128631.59
Ta'id Holmes2565.66
Ernst Oberortner3424.63
Emmanuel Mulo4452.68
Agnieszka Betkowska Cavalcante560.81
Jacek Serafinski6281.65
Marek Tluczek7281.65
Aliaksandr Birukou817217.10
Florian Daniel920619.79
Patricia Silveira10141.99
Uwe Zdun111429148.33
Schahram Dustdar129347575.71