Exportar registro bibliográfico


Model-based engineering & simulation of software-intensive systems-of-systems: experience report and lessons learned (2018)

  • Authors:
  • USP affiliated author: NAKAGAWA, ELISA YUMI - ICMC
  • School: ICMC
  • DOI: 10.1145/3241403.3241432
  • Keywords: Model; Modeling; Model-Based; Model-Driven; Systems-of-Systems; Lessons Learned; Experience Report
  • Language: Inglês
  • Imprenta:
  • Source:
  • Conference title: European Conference on Software Architecture - ECSA
  • Online source accessDOI
    Informações sobre o DOI: 10.1145/3241403.3241432 (Fonte: oaDOI API)
    • Este periódico é de assinatura
    • Este artigo NÃO é de acesso aberto
    • Cor do Acesso Aberto: closed

    How to cite
    A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas

    • ABNT

      GRACIANO NETO, Valdemar Vicente; MANZANO, Wallace; KASSAB, Mohammad; NAKAGAWA, Elisa Yumi. Model-based engineering & simulation of software-intensive systems-of-systems: experience report and lessons learned. Anais.. New York, NY: ACM, 2018.Disponível em: DOI: 10.1145/3241403.3241432.
    • APA

      Graciano Neto, V. V., Manzano, W., Kassab, M., & Nakagawa, E. Y. (2018). Model-based engineering & simulation of software-intensive systems-of-systems: experience report and lessons learned. In Proceedings. New York, NY: ACM. doi:10.1145/3241403.3241432
    • NLM

      Graciano Neto VV, Manzano W, Kassab M, Nakagawa EY. Model-based engineering & simulation of software-intensive systems-of-systems: experience report and lessons learned [Internet]. Proceedings. 2018 ;Available from: http://dx.doi.org/10.1145/3241403.3241432
    • Vancouver

      Graciano Neto VV, Manzano W, Kassab M, Nakagawa EY. Model-based engineering & simulation of software-intensive systems-of-systems: experience report and lessons learned [Internet]. Proceedings. 2018 ;Available from: http://dx.doi.org/10.1145/3241403.3241432

    Referências citadas na obra
    Bashir Al-Hashimi. 1995.The Art of Simulation Using PSpice: Analog and Digital(1st ed.). CRC Press, Inc., Boca Raton, FL, USA.
    W. Clifton Baldwin, Brian Sauser, and Robert Cloutier. 2015. Simulation Approaches for System of Systems: Events-based versus Agent Based Modeling.Procedia Computer Science44, 1 (2015), 363 -- 372.
    Jerry Banks. 1999. Introduction to Simulation. In31st WSC.ACM, Phoenix, Arizona, USA, 7--13.
    E. Barbi, G. Cantone, D. Falessi, F. Morciano, M. Rizzuto, V. Sabbatino, and S. Scarrone. 2012. A model-driven approach for configuring and deploying Systems of Systems. In7th SoSE.IEEE, Genova, Italy, 214--218.
    Jan Bosch. 2000.Design and Use of Software Architectures: Adopting and Evolving a Product-line Approach.Addison-Wesley, New York, USA.
    J. F. Broenink and Y. Ni. 2012. Model-driven robot-software design using integrated models and co-simulation. InSAMOS.Samos, Greece, 339--344.
    Radu Calinescu and Marta Kwiatkowska. 2010. Software Engineering Techniques for the Development of Systems of Systems. InFoundations of Computer Software. Future Trends and Techniques for Development, Christine Choppy and Oleg Sokolsky (Eds.). Lecture Notes in Computer Science, Vol. 6028. Springer Berlin Heidelberg, Berlin, Germany, 59--82.
    P. Carle, R. Kervarc, R. Cuisinier, N. Huynh, J. Bedouët, T. Rivière, and E. Noulard. 2012. Simulation of Systems of Systems.AerospaceLab4 (2012), p. 1--10.
    Deniz Cetinkaya, Alexander Verbraeck, and Mamadou D. Seck. 2012. Model Transformation from BPMN to DEVS in the MDD4MS Framework. In8th TMS/DEVS.SCS, Orlando, USA, Article 28, 6 pages.
    Breno Bernard Nicolau de França and Guilherme Horta Travassos. 2016. Experimentation with dynamic simulation models in software engineering: planning and reporting guidelines.Empirical Software Engineering21, 3 (2016), 1302--1345.
    Liliana Dobrica and Eila Niemele. 2002. A Survey on Software Architecture Analysis Methods.IEEE Transactions on Software Engineering28, 7 (July 2002), 638--653.
    Elisa Yumi Nakagawa et al. 2017. Software Architecture and Reference Architecture of Software-intensive Systems and Systems-of-systems: Contributions to the State of the Art(11th ECSA Companion).ACM, Canterbury, UK, 4--11.
    Katrina Falkner, Claudia Szabo, Vanea Chiprianov, Gavin Puddy, Marianne Rieckmann, Dan Fraser, and Cathlyn Aston. 2016. Model-driven performance prediction of systems of systems.Software & Systems Modeling15, 3 (2016), 1--27.
    C. Farcas, E. Farcas, I.H. Krueger, and M. Menarini. 2010. Addressing the Integration Challenge for Avionics and Automotive Systems - From Components to Rich Services.Proc. IEEE98, 4 (2010), 562--583.
    N. Fischer and H. Salzwedel. 2011. Overcoming the Generation Gap in aircraft designs with executable specifications. In31st DASC.IEEE, Sydney, Australia, 1--10.
    Robert France and Bernhard Rumpe. 2007. Model-driven Development of Complex Software: A Research Roadmap. InFOSE 2007.IEEE, Minneapolis, USA, 37--54.
    Romain Franceschini, Paul-Antoine Bisgambiglia, Paul Bisgambiglia, and David Hill. 2014. DEVS-ruby: A Domain Specific Language for DEVS Modeling and Simulation (WIP)(DEVS '14).SCSI, Tampa, Florida, Article 15, 15:1--15:6 pages.
    Romain Franceschini, Paul-Antoine Bisgambiglia, Luc Touraille, Paul-Antoine Bisgambiglia, and David R.C. Hill. 2014. A survey of modelling and simulation software frameworks using Discrete Event System Specification. InICCSW'14 Imperial College Computing Student Workshop.London, United Kingdom.
    Ariel Gonzalez, Carlos Luna, Marcela Daniele, Roque Cuello, and Marcela Perez. 2015. Towards an automatic model transformation mechanism from UML state machines to DEVS models.CLEI Electronic Journal18, 2 (2015).
    Valdemar Vicente Graciano Neto. 2018.A simulation-driven model-based approach for designing software-intensive systems-of-systems architectures.Ph.D. Dissertation. ICMC - USP.
    Valdemar Vicente Graciano Neto, Lina Garcés, Milena Guessi, Carlos Paes, Wallace Manzano, Flavio Oquendo, and Elisa Yumi Nakagawa. 2018. ASAS: An Approach to Support Simulation of Smart Systems. In51st HICSS 2018.IEEE, Big Island, Hawaii, USA, 5777--5786.
    Valdemar Vicente Graciano Neto, Milena Guessi, Lucas Bueno R. Oliveira, Flavio Oquendo, and Elisa Yumi Nakagawa. 2014. Investigating the Model-Driven Development for Systems-of-Systems. In8th ECSA Workshops.ACM, Vienna, Austria, Article 22, 22:1--22:8 pages.
    Valdemar Vicente Graciano Neto, Flavio Horita, Everton Cavalcante, Adair Rohling, Daniel Santos, Jamal El-Hachem, and Elisa Nakagawa. 2018. A Study on Goals Specification for Systems-of-Information Systems: Design Principles and Conceptual Model. InSBSI 2018.Caxias do Sul, Brazil.
    Valdemar Vicente Graciano Neto, Wallace Manzano, Lina Garcés, Milena Guessi, Brauner Oliveira, Tiago Volpato, and Elisa Yumi Nakagawa. 2018. Back-SoS: Towards a Model-based Approach to Address Architectural Drift in Systems-of-Systems. In33rd SAC.ACM, Pau, France, 1461--1463.
    Valdemar Vicente Graciano Neto, Wallace Manzano, Adair Rohling, Tiago Volpato, and Elisa Yumi Nakagawa. 2018. Externalizing Patterns for Simulation in Software Engineering of Systems-of-Systems. In33rd SAC.ACM, Pau, France, 1687--1694.
    Valdemar Vicente Graciano Neto, Flavio Oquendo, and Elisa Yumi Nakagawa. 2017.Smart Systems-of-Information Systems: Foundations and an Assessment Model for Research Development.Brazilian Computer Society, Porto Alegre, Brazil, 1--12.
    Valdemar Vicente Graciano Neto, Carlos Eduardo Paes, Lina Garcés, Milena Guessi, Flavio Oquendo, and Elisa Yumi Nakagawa. 2017. Stimuli-SoS: A Model-Based Approach to Derive Stimuli Generators in Simulations of Software Architectures of Systems-of-Systems.Journal of the Brazilian Computer Society23, 1 (2017), 13:1--13:22.
    Jeff Gray and Bernhard Rumpe. 2016. Models in simulation.Software & Systems Modeling15, 3 (2016), 605--607.
    Milena Guessi, Everton Cavalcante, and Lucas B. R. Oliveira. 2015. Characterizing Architecture Description Languages for Software-Intensive Systems-of-Systems. In3rd SESoS.IEEE, Florence, Italy, 12--18.
    Jan Himmelspach and Adelinde M. Uhrmacher. 2007. Plug'N Simulate(40th ANSS).IEEE, Washington, DC, USA, 137--143.
    Jianpeng Hu, Linpeng Huang, Bei Cao, and Xuling Chang. 2014. Executable Modeling Approach to Service Oriented Architecture Using SoaML in Conjunction with Extended DEVSML. In11th SCC.IEEE, Anchorage, Alaska, USA, 243--250.
    Jianpeng Hu, Linpeng Huang, Bei Cao, and Xuling Chang. 2014. Extended DEVSML as a Model Transformation Intermediary to Make UML Diagrams Executable. In26th SEKE.Knowledge Systems institution, Vancouver, Canada.
    ISO/IEC/IEEE. 2011. ISO/IEC/IEEE 42010:2011 Systems and software engineering - Architecture description. (Dec 2011), 1--46.
    John Klein and Hans van Vliet. 2013. A Systematic Review of System-of-systems Architecture Research. In9th International ACM Sigsoft Conference on Quality of Software Architectures (QoSA 2013).ACM, Vancouver, Canada, 13--22.
    Cristiane A. Lana, Nilton M. Souza, Márcio E. Delamaro, Elisa Y. Nakagawa, Flávio Oquendo, and José C. Maldonado. 2016. Systems-of-Systems Development: Initiatives, Trends, and Challenges. In42nd CLEI.IEEE, Valparaiso, Chile, 1--10.
    Mark W. Maier. 1998. Architecting principles for systems-of-systems.Systems Engineering1, 4 (1998), 267--284.
    J. B. Michael, R. Riehle, and M. T. Shing. 2009. The verification and validation of software architecture for systems of systems. In4th SoSE.IEEE, Albuquerque, USA, 1--6.
    Milena Guessi et al. 2015. A systematic literature review on the description of software architectures for systems of systems. In30th SAC.ACM, Salamanca, Spain, 1433--1440.
    S. Mittal and J.L. Risco Martin. 2013. Model-driven systems engineering for netcentric system of systems with DEVS unified process. In45th Winter Simulation Conference (WSC 2013).Society for Modeling and Simulation International, Washington DC, USA, 1140--1151.
    Saurabh Mittal, Bernard P. Zeigler, Jose L. Risco Martin, Ferat Sahin, and Mo Jamshidi. 2008. Modeling and Simulation for Systems of Systems Engineering. InSystem of Systems Engineering, Mo Jamshidi (Ed.). John Wiley & Sons, Inc., Washington, USA, 101--149.
    Elisa Y. Nakagawa, Marcelo Goncalves, Milena Guessi, Lucas B. R. Oliveira, and Flavio Oquendo. 2013. The State of the Art and Future Perspectives in Systems of Systems Software Architectures. In1st SESoS.ACM, Montpellier, France, 13--20.
    Vânia Neves, Antonia Bertolino, Guglielmo De Angelis, and Lina Garcés. 2018. Do we need new strategies for testing Systems-of-Systems?. In6th SESoS at ICSE.IEEE, Gothenburg, Sweden, 1--8.
    C.B. Nielsen, P.G. Larsen, J. Fitzgerald, J. Woodcock, and J. Peleska. 2015. Systems of systems engineering: Basic concepts, model-based techniques, and research directions.Comput. Surveys48, 2 (2015).
    Claus Ballegaard Nielsen, Peter Gorm Larsen, John Fitzgerald, Jim Woodcock, and Jan Peleska. 2015. Systems of Systems Engineering: Basic Concepts, Model-Based Techniques, and Research Directions.Comput. Surveys48, 2, Article 18 (Sept. 2015), 41 pages.
    Flavio Oquendo. 2016. Formally Describing the Software Architecture of Systems-of-Systems with SosADL. In11th SoSE.IEEE, Kongsberg, Norway, 1--6.
    Flavio Oquendo. 2016.π-Calculus for SoS: A Foundation for Formally Describing Software-intensive Systems-of-Systems. In11th IEEE System of Systems Engineering Conference (SoSE 2016).IEEE, Kongsberg, Norway, 1--6.
    Flávio Oquendo. 2016. Software Architecture Challenges and Emerging Research in Software-Intensive Systems-of-Systems. In10th ECSA.Springer, Copenhagen, Denmark, 3--21.
    L. Piccolboni and G. Pravadelli. 2014. Simplified stimuli generation for scenario and assertion based verification. In15th Latin American Test Workshop (LATW 2014).IEEE, Fortaleza, Brazil, 1--6.
    Gauthier Quesnel, Raphael Duboz, and Eric Ramat. 2009. The Virtual Laboratory Environment - An operational framework for multi-modelling, simulation and analysis of complex dynamical systems.Simulation Modelling Practice and Theory17, 4 (2009), 641 -- 653.
    Daniel Soares Santos, Brauner Oliveira,, Milena Guessi, Flavio Oquendo, Marcio Delamaro, and Elisa Yumi Nakagawa. 2014. Towards the Evaluation of System-of-Systems Software Architectures. In8th WDES.SBC, Maceió, Brazil, 53--57.
    B. Selic. 2003. The pragmatics of model-driven development.Software, IEEE,20, 5 (sept.-oct. 2003), 19 -- 25.
    Bran Selic. 2012. MDE Basics with a UML Focus. InFormal Methods for Model-Driven Engineering, Cortellessa Vittorio Pierantonio Alfonso Bernardo, Marco (Ed.). Springer, Bertinoro, Italy, 1.
    E. Silva, E. Cavalcante, and T. Batista. 2017. Refining Missions to Architectures in Software-Intensive Systems-of-Systems. InIEEE/ACM Joint 5th International Workshop on Software Engineering for Systems-of-Systems and 11th Workshop on Distributed Software Development, Software Ecosystems and Systems-of-Systems (JSOS 2017).IEEE, Buenos Aires, Argentina, 2--8.
    Yentl Van Tendeloo and Hans Vangheluwe. 2017. An evaluation of DEVS simulation tools.Simulation93, 2 (2017), 103--121.
    Yentl Van Tendeloo and Hans Vangheluwe. 2014. The Modular Architecture of the Python(P)DEVS Simulation Kernel(DEVS '14).SCS International, San Diego, CA, USA, Article 14, 6 pages.
    Hans Vangheluwe. 2008. Foundations of modelling and simulation of complex systems.Electronic Communications of the EASST10 (2008).
    John Vlissides, Richard Helm, Ralph Johnson, and Erich Gamma. 1995. Design patterns: Elements of reusable object-oriented software.Reading: Addison-Wesley49, 120 (1995), 11.
    Gabriel Wainer. 2002. CD++: a toolkit to develop DEVS models.Software - Practice and Experience32 (2002), 1261--1306.
    G. Wiederhold. 1992. Mediators in the architecture of future information systems.Computer25, 3 (March 1992), 38--49.
    S. Yang, R. Wille, D. Grobe, and R. Drechler. 2012. Coverage-Driven Stimuli Generation. In15th Euromicro Conference on Digital System Design (ECDSD 2012).IEEE, Izmir, Turkey, 525--528.
    Bernard P. Zeigler, Hessam S. Sarjoughian, Raphal Duboz, and Jean-Christophe Souli. 2012.Guide to Modeling and Simulation of Systems of Systems.Springer-Verlag London, London, United Kingdom.

Digital Library of Intellectual Production of Universidade de São Paulo     2012 - 2020