Integration Beyond Components and Models: Research Challenges and Directions
Ivan Ruchkin.
In Proceedings of the 3rd Architecture Centric Virtual Integration Workshop, Venice, Italy, April 2016.
Online links:
Abstract
Recent research in embedded and cyber-physical
systems has developed theories and tools for integration of
heterogeneous components and models. These efforts, although
important, are insufficient for high-quality and error-free systems
integration since inconsistencies between system elements may
stem from factors not directly represented in models (e.g.,
analysis tools and expert disagreements). Therefore, we need to
broaden our perspective on integration, and devise approaches
in three novel directions of integration: modeling methods, data
sets, and humans. This paper summarizes the latest advances, and
discusses those directions and associated challenges in integration
for cyber-physical systems. |
Keywords: Cyberphysical Systems, Software Architecture.
@InProceedings{2016/Ruchkin/integration,
AUTHOR = {Ruchkin, Ivan},
TITLE = {Integration Beyond Components and Models: Research Challenges and Directions},
YEAR = {2016},
MONTH = {April},
BOOKTITLE = {Proceedings of the 3rd Architecture Centric Virtual Integration Workshop},
ADDRESS = {Venice, Italy},
PDF = {http://acme.able.cs.cmu.edu/pubs/uploads/pdf/acvi-2016.pdf},
ABSTRACT = {Recent research in embedded and cyber-physical
systems has developed theories and tools for integration of
heterogeneous components and models. These efforts, although
important, are insufficient for high-quality and error-free systems
integration since inconsistencies between system elements may
stem from factors not directly represented in models (e.g.,
analysis tools and expert disagreements). Therefore, we need to
broaden our perspective on integration, and devise approaches
in three novel directions of integration: modeling methods, data
sets, and humans. This paper summarizes the latest advances, and
discusses those directions and associated challenges in integration
for cyber-physical systems.},
KEYWORDS = {Cyberphysical Systems, Software Architecture} }
|