Talks and Poster Presentations (with Proceedings-Entry):
H. Tran, T. Holmes, E. Oberortner, E. Mulo, A. Cavalcante, J. Serafinski, M. Tluczek, A. Birukou, F. Daniel, P. Silveira, U. Zdun, S. Dustdar:
"An End-to-End Framework for Business Compliance in Process-Driven SOAs";
Talk: 12th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC 2010),
- 2010-09-26; in: "12th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing (SYNASC 2010)",
T. Ida, V. Negru, T. Jebelean, D. Petcu, S. Watt, D. Zaharie (ed.);
IEEE Computer Society,
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 a per-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.
Business compliance, process-driven SOA, viewbased, model-driven development, domain-specific languages, event processing, runtime monitoring, governance dashboard.
"Official" electronic version of the publication (accessed through its Digital Object Identifier - DOI)
Project Head Schahram Dustdar:
Compliance-driven Models, Languages, and Architectures for Services
Created from the Publication Database of the Vienna University of Technology.