1. |
N.G Leveson,“A systems-theoretic approach to safety in software-intensive systems,” Journal of IEEE Transactions on Dependable and Secure Computing, Vol.1, No.1, pp. 66-86,January 2004.
|
2. |
Feiler H.Peteret al, System Architecture Virtual Integration: an industrial case study (.
|
3. |
Cicchetti, Antonioet al, “Multi-view approaches for software and system modelling: a systematic literature review,” Journal of Software and Systems Modeling, Vol. 18, No. 6, pp. 3207-3233, December 2019.
|
4. |
Y.Huafeng, M. Yue et al. “System-level co-simulation of integrated avionics using Polychrony,” in Proceedings of SAC’11 26th ACM Symposium on Applied Computing, pp. 354-359,Taiwan, Province of China, March 2011.
|
5. |
W. Wang, A. Duffy, R. Whitefield et al, “Virtual integration for marine systems design,” in Proceedings of International Marine Design Conference, June 2012.
|
6. |
D.T.Ward, SAVI Proof-of-Concept Program AFE58 (https://savi.avsi.aero.html, accessed August2009).
|
7. |
J.J.Chilenski and D.T.Ward,SAVIAFE59 Report (https://savi.avsi.aero, accessed May2015).
|
8. |
J.J.Chilenski and D.T.Ward, SAVI AFE61Report (https://savi.avsi.aero, accessed May2015).
|
9. |
N. Kahani, M. Bagherzadeh, J.R.Cordy et al, “Survey and classification of model transformation tools,” Journal of Software and Systems Modeling, Vol. 18, No. 4, pp.2361-2397, August2018.
|
10. |
M. A. O.Mukhtar, A. Azween and G.D. Alan, “Preliminary overview about relations QVT: Query/View/Transformation model transformation language,” in Proceedings of National Postgraduate Conference, Kuala Lumpur, Malaysia, September2011.
|
11. |
Jouault, Frédéricet al, “ATL: a QVT-like transformation language,” in Proceedings of the Conference on Object-Oriented Programming Systems, Languages, and Applications, pp.719-720, Portland, Oregon, USA, January 2006.
|
12. |
Joel Greenyer, Ekkart Kindler, “Reconciling TGGs with QVT Model Driven Engineering Languages and Systems,” in Proceedings of 10th International Conference of Model Driven Engineering Languages and Systems, Nashville, USA,2007.
|
13. |
Bergmann, Gáboret al, “Viatra 3: A Reactive Model Transformation Platform,” in Proceedings of Theory and Practice of Model Transformations: 8th International Conference, pp. 101-110, L'Aquila, Italy, July 2015.
|
14. |
Stevens and Perdita, “Bidirectional Transformations in the Large,” in Proceedings of 2017 ACM/IEEE 20th International Conference on Model Driven Engineering Languages and Systems, pp.1-11, September2017.
|
15. |
Ivan Kurtev, “State of the Art of QVT: A Model Transformation Language Standard,” in P, Kassel, Germany, 2007.
|
16. |
Macedo, Nuno and Alcino Cunha. “Implementing QVT-R Bidirectional Model Transformations Using Alloy,” in Proceedings of the 16th international conference on Fundamental Approaches to Software Engineering, 2013.
|
17. |
Kramer, Max E.et al.“Change-driven consistency for component code, architectural models, and contracts.” In Proceedings of the 18th International ACM SIGSOFT Symposium on Component-Based Software Engineering, pp. 21-26, Montréal, QC, Canada, May2015.
|
18. |
Macedo, Nunoet al. “Towards a framework for multi-directional model transformations.” In Proceedings of the Workshops of the EDBT/ICDT 2014 Joint Conference, 2014.
|
19. |
Malavolta, Ivanoet al. “Providing Architectural Languages and Tools Interoperability through Model Transformation Technologies,” Journal of IEEE Transactions on Software Engineering, Vol. 36, No.10, pp. 119-140, January 2010.
|
20. |
Kappel, Gertiet al, “ModelCVS A Semantic Infrastructure for Model-based Tool Integration,” in Proceedings of the 2006 international workshop on Global integrated model management, Shanghai, China, 2005.
|
21. |
Dong Y.W., Wei X.M. and X. M.R. “Overview: System Architecture Virtual Integration based on an AADL Model”, Lecture Notes in Computer Science,2018.
|
22. |
Malavolta, Ivano et al. “Integrating AADL within a Multi-domain Modeling Framework.” in Proceedings of2009 14th IEEE International Conference on Engineering of Complex Computer Systems, pp. 341-346, June2009.
|
23. |
Glaß, Michael et al. “A co-simulation approach for system-level analysis of embedded control systems.” Journalof2012 International Conference on Embedded Computer Systems, pp. 355-362, 2012.
|
24. |
Yu, Huafenget al. “The challenge of interoperability: Model-based integration for automotive control software,” in Proceedings of 2015 52nd ACM/EDAC/IEEE Design Automation Conference, Vol. 15, No. 58, pp. 1-6, New York, NY, USA, 2015.
|
25. |
Fabro, Marcos Didonet Del and Patrick Valduriez. “Towards the efficient development of model transformations using model weaving and matching transformations.” Journal of Software and Systems Modeling, Vol. 8, No.3, pp. 305-324, 2008.
|
26. |
Müller, Wolfganget al. “Dynamic tool integration in heterogeneous computer networks.” in Proceedings of 2003 Design, Automation and Test in Europe Conference and Exhibition, Vol. 1, No. 3, pp. 946-951, Washington, DC, USA, 2003.
|
27. |
Karsai, Gaboret al. “Design patterns for open tool integration.” Journal of Software and Systems Modeling, Vol. 4, No. 2, pp.157-170, May 2005.
|
28. |
Bork, Dominik and Dimitris Karagiannis. “Model-driven Development of Multi-View Modelling Tools - The MUVIEMOT Approach.” Software Paradigm Trends, 2014.
|
29. |
Togni, João Danielet al. “Tool integration using the web-services approach.” GLSVLSI, 5th Edition, 2005.
|
30. |
Kramler, Gerhardet al. “Towards a semantic infrastructure supporting model-based tool integration,” in Proceedings of GaMMa, Vol. 6, No.4, pp. 43-46, Shanghai, China,2006.
|
31. |
Damm, Christian Heide et al. “Tool integration: experiences and issues in using XMI and component technology,” in Proceedings of 33rd International Conference on Technology of Object-Oriented Languages and Systems, Vol.33, pp. 94-107, 2000.
|
32. |
Kapsammer, Elisabethet al. “Model-Based Tool Integration-State of the Art and Future Perspectives.” 2006.
|
33. |
S. MELLOR, model driven development integration MDDi Eclipse creation review (.
|
34. |
Reichmann, Clemenset al, “GeneralStore - a CASE-tool integration platform enabling model level coupling of heterogeneous designs for embedded electronic systems,” in Proceedings of the 11th IEEE International Conference and Workshop on the Engineering of Computer-Based Systems, pp. 225-232, June 2004.
|
35. |
WOTIF, web-based open tool integration framework(.
|
36. |
Simi, Stephen M.et al. “TES-SAVi AWESUM™ model-based systems engineering (MBSE) for FACETM applications.” in Proceedings of 2014 IEEE Aerospace Conference, pp. 1-17, 2014.
|
37. |
Steve Vanderleest, “Designing A Future Airborne Capability Environment (FACE) Hypervisor for Safety and Security,” in Proceedings of Digital Avionics Systems Conference, 2017.
|
38. |
Rahman, Rezwanuret al. “Model Based Engineering using AVL Model.CONNECT.” 2017.
|
39. |
S. Burmester, H. Giese, J. Niere et al, “Tool integration at the meta-model level: the Fujaba approach,” Journal of International Journal on Software Tools for Technology Transfer, Vol. 6, No. 3, pp. 203-218, 2003.
|
40. |
Himanshu Neema, Janos Sztipanovits, Martin Burns et al, “C2WT-TE: A model-based open platform for integrated simulations of transactive smart grids” in Proceedings of 2016 Workshop on Modeling and Simulation of Cyber-Physical Energy Systems, 2016.
|
41. |
Blanc, Xavieret al. “Model Bus: Towards the Interoperability of Modelling Tools.” in Proceedings of European Conference on Model Driven Architecture: Foundations and Applications, 2003.
|
42. |
Hein, Christianet al. “Model-Driven Tool Integration with ModelBus.” 2016.
|
43. |
J. Eskeli, J. Maurolagoitia,C.Polcaro, “PSW: A Framework-based Tool Integration Solution for Global Collaborative Software Development,” in Proceedings of The Sixth International Conference on Software Engineering Advances,2011.
|
44. |
Sztipanovits, Janoset al, “OpenMETA: A Model- and Component-Based Design Tool Chain for Cyber-Physical Systems.” in Proceedings of Systems Perspective in Computing, 2014.
|