DocumentCode
1285743
Title
Solution Workflows for Model-Based Analysis of Complex Systems
Author
Moscato, Francesco ; Vittorini, Valeria ; Amato, Flora ; Mazzeo, Antonino ; Mazzocca, Nicola
Author_Institution
Dipt. di Studi Europei e Mediterranei, Seconda Univ. di Napoli, Caserta, Italy
Volume
9
Issue
1
fYear
2012
Firstpage
83
Lastpage
95
Abstract
The development and analysis of increasingly complex systems require the intensive use of models and of sophisticated approaches to systems modeling. This paper focuses on workflows supporting the solution of complex, composed, formal models used to study and/or develop real-world systems. The workflows we deal with orchestrate multiple distributed tools and applications in order to provide the user with a powerful, composed solution environment. The aim is to automate and reproduce analysis and simulation tasks starting from a high level, graph-based description of the model to be solved. This paper thus introduces solution workflows and presents the Solution Process Definition Language (SPDL) for the specification of solution workflows processes. One of the key elements of SPDL is its formal semantics, which allow for unambiguous specification of its constructs and validation of the workflows. A workflow pattern analysis of SPDL is also provided. SPDL and its execution environment, the OsMoSys framework, are then applied to a homeland security scenario. The OsMoSys framework and the SPDL language provide a practical contribution to the applicability of model engineering techniques by enabling the semiautomatic solution of complex models.
Keywords
distributed processing; formal specification; formal verification; military computing; national security; specification languages; workflow management software; OsMoSys framework; SPDL workflow pattern analysis; complex system; distributed application; distributed tool; formal model; homeland security scenario; model engineering technique; model-based analysis; solution process definition language; systems modeling; workflows process; Analytical models; Availability; Bridges; Computational modeling; Computer architecture; Semantics; Tin; Complex systems; formal modeling; model engineering; scientific workflow; workflow patterns;
fLanguage
English
Journal_Title
Automation Science and Engineering, IEEE Transactions on
Publisher
ieee
ISSN
1545-5955
Type
jour
DOI
10.1109/TASE.2011.2161981
Filename
5966370
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