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Article

A formal framework for capturing knowledge to transform structural models into analysis models

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Pages 202-216 | Received 16 Apr 2010, Accepted 25 May 2011, Published online: 19 Dec 2017

References

  • AmelunxenCKonigsARotschke,TSchurrAMoflon: A standard-compliant metamodeling framework with graph transformationsLect Notes Comput Sci2006406636110.1007/11787044_27
  • BajajMPeakRSParedisCJJKnowledge composition for efficient analysis problem formulation part 1: Motivation and requirementsASME 2007 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference2007
  • BajajMPeakRSParedisCJJKnowledge composition for efficient analysis problem formulation part 2: Approach and analysis meta-modelASME 2007 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference2007
  • BaldwinCYClarkKBDesign Rules: Volume 1. The Power of Modularity1999
  • Beltrame T and Cellier FE (2006). Quantised state system simulation in Dymola/Modelica using the DEVS formalism. In: Kral C and Haumer A (eds). Proceedings of the 5th International Modelica Conference. Vienna, Austria, pp 73–82.
  • BrookeAGAMS: A User's Guide1992
  • ChristenEBakalarKVHDL-AMS—a hardware description language for analog and mixed-signal applicationsIEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing199940101263127210.1109/82.799677
  • eClass (eCl@ss e.V.) (2008). Eclass. http://www.eclass.de/.
  • Eppinger SD, Sosa ME and Rowles CM (2000). Designing modular and integrative systems. ASME 2000 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, Baltimore, Maryland, USA.
  • FenvesSFoufouSBockCSriramRDCPM2: A core model for product dataJournal of Computing and Information Science in Engineering20088101450110.1115/1.2830842
  • FisherJModel-based systems engineering: A new paradigmINCOSE Insight19981331610.1002/inst.1998133
  • GarridoJMObject-Oriented Discrete-Event Simulation with Java: A Practical Introduction2001
  • GershensonJKPrasadGJAllamneniSModular product design: A life-cycle viewJournal of Integrated Design & Process Science1999341326
  • GrosseIRMilton-BenoitJMWiledenJCOntologies for supporting engineering analysis modelsArtificial Intelligence for Engineering Design, Analysis and Manufacturing200519111810.1017/S0890060405050018
  • HeinickeMUHickmanAEliminate bottlenecks with integrated analysis tools in eM-PlantIEEE20001229231
  • Horváth I, Vergeest JSM and Kuczogi G (1998). Development and application of design concept ontologies for contextual conceptualization. 1998 ASME Design Engineering Technical Conferences, Atlanta, GA.
  • HuangERamamurthyRMcGinnisLFSystem and simulation modeling using SysMLProceedings of the 39th conference on Winter simulation2007796803
  • Johnson TA, Paredis CJJ and Burkhart R (2008). Integrating models and simulations of continuous dynamics into SysML. In: Modelica Conference 2008, Bielefeld, Germany.
  • KeltonWDSadowskiRPSadowskiDASimulation with ARENA2002
  • KopenaJBRegliWCFunctional modeling of engineering designs for the semantic webData Engineering20032645561
  • Mattsson SE and Elmqvist H (1998). An overview of the modeling language Modelica. Eurosim ‘98 Simulation congress, Helsinki, Finland.
  • Mocko G, Malak Jr. RJ, Paredis CJJ and Peak R (2004). A knowledge repository for behavioral models in engineering design. ASME Computers and Information in Engineering Conference, Salt Lake City, UT.
  • Modelica Association (2005). Modelica language specification. Linköping, Sweden.
  • OMG (2010). SysML-Modelica (SyM) 1.0—Beta 1. http://www.omg.org/spec/SyM/L0/Beta1/.
  • PahlGBeitzWFeldhunenJGroteKHEngineering Design: A Systematic Approach2007
  • ParedisCJJDiaz-CalderonASinhaRKhoslaPKComposable models for simulation-based designEngineering with Computers200117211212810.1007/PL00007197
  • ParedisCJJJohnsonTUsing OMG's SysML to support simulationProceedings of the 40th Conference on Winter Simulation200823502352
  • Peak RS et al (2007). Simulation-based design using SysML-part1: A parametrics primer. in INCOSE Intl. Symposium, San Diego, CA.
  • PeakRSFultonRENishigakiIOkamotoNIntegrating engineering design and analysis using a multi-representation approachEngineering with Computers19981429311410.1007/BF01213584
  • Powell A, Nilsson M, Naeve A and Johnston P (2007). Dcmi abstract model, http://dublincore.org/documents/2007/06/04/abstract-model/.
  • RachuriSInformation models for product representation: Core and assembly modelsInternational Journal of Product Development20052320723510.1504/IJPD.2005.007248
  • SageAPArmstrongJEJrIntroduction to Systems Engineering2000
  • SasajimaMKitamuraYIkedaMMizoguchiRFbrl: A function and behavior representation languageProc. of IJCAI19959518301836
  • Shah AA (2010). Combining mathematical programming and SysML for component sizing as applied to hydraulic systems. Masters Thesis, Mechanical Engineering, Georgia Institute of Technology, Atlanta.
  • Simmetrix Inc (2006). Simulation application suite, http://simmetrix.com/products/SimulationApplicationSuite/main.html.
  • Simulink (The Mathworks) (2008). Simulink. http://www.mathworks.com/products/simulink/.
  • StoneRBWoodKLDevelopment of a functional basis for designJournal of Mechanical Design200012235937010.1115/1.1289637
  • SysML (2006). OMG systems modeling language (OMG SysML), V1.0, http://www.omgsysml.org/.
  • SzykmanSSriramRBochenekCRaczJThe nist design repository projectAdvances in Soft Computing—Engineering Design and Manufacturing1998
  • TzillaERobertEFAtefBAspect-oriented programming: IntroductionCommunications of The ACM20014410293210.1145/383845.383853
  • Ulrich K and Tung K (1991). Fundamentals of product modularity. 1991 ASME Design Technical Conferences—Conference on Design/Manufacture Integration, Miami, Florida.
  • Umeda Y, Takeda H, Tomiyama T and Yoshikawa H (1990). Function, behavior, and structure. Applications of Artificial Intelligence in Engineering V. Springer-Verlag, Berlin, Germany, 1, pp 177–193.
  • Varga A and Hornig R (2008). An overview of the omnet++ simulation environment. ICST (Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering), pp 1–10.
  • Wallace D, Pahng GDF and Bae S (1998). Web-based collaborative design modeling and decision support. 1998 ASME Design Engineering Technical Conferences and Engineering in Information Management Conference. Atlanta, Georgia, USA.
  • ZeiglerBPHierarchical, modular discrete-event modelling in an object-oriented environmentSimulation198749521910.1177/003754978704900506
  • ZeiglerBPImplementation of the DEVS formalism over the HLA/RTI: Problems and solutionsFall Simulation Interoperability Workshop1999

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