MULTI-PARADIGM MODELLING FOR MODEL BASED SYSTEMS ENGINEERING: EXTENDING THE FTG plus PM

被引:0
|
作者
Paredis, Randy [1 ]
Exelmans, Joeri [1 ]
Vangheluwe, Hans [1 ]
机构
[1] Univ Antwerp, Flanders Make, Middelheimlaan 1, Antwerp, Belgium
来源
PROCEEDINGS OF THE 2022 ANNUAL MODELING AND SIMULATION CONFERENCE (ANNSIM'22) | 2022年
关键词
Formalism Transformation Graph and Process Model (FTG plus PM); Model-Based Systems Engineering (MBSE); Multi-Paradigm Modelling (MPM);
D O I
暂无
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
Model Based Systems Engineering (MBSE) supports Cyber-Physical Systems ( CPS) design, by experts from various domains, through complex workflows, manipulating models in different formalisms, each with their own methods, techniques and tools. We refer to often-used combinations of workflow and formalism patterns as modelling paradigms. The Formalism Transformation Graph ( FTG) and Process Model (PM) are key components in Multi-Paradigm Modelling ( MPM) based MBSE, which combines multiple modelling paradigms. This paper extends the FTG+ PM framework: a Process Trace (PT) records all start/end events of engineering activities as well as all versions of all artifacts consumed/produced by them. A PT results from the enactment of a PM. The artifacts and activities in the PT are "virtual": though referred to in a technology-agnostic manner, they are realized using various technologies. Adapters translate between both, making the FTG+ PM federated. An Automated Guided Vehicle (AGV) example is used.
引用
收藏
页码:461 / 474
页数:14
相关论文
共 50 条
  • [1] A Multi-Paradigm Modelling & Simulation Approach for System of Systems Engineering: A Case Study
    Ross, William
    Ulieru, Mihaela
    Gorod, Alex
    [J]. PROCEEDINGS OF THE 2014 9TH INTERNATIONAL CONFERENCE ON SYSTEM OF SYSTEMS ENGINEERING (SOSE 2014), 2014, : 183 - 188
  • [2] Extending Jupyter with Multi-Paradigm Editors
    Weber, Thomas
    Ehe, Janina
    Mayer, Sven
    [J]. Proceedings of the ACM on Human-Computer Interaction, 2024, 8 (EICS)
  • [3] Multi-paradigm modelling of Cyber-Physical Systems
    Morozov, Dmitry
    Lezoche, Mario
    Panetto, Herve
    [J]. IFAC PAPERSONLINE, 2018, 51 (11): : 1385 - 1390
  • [4] Multi-Paradigm Modelling of Cyber-Physical Systems
    Vangheluwe, Hans
    [J]. 2018 IEEE/ACM 4TH INTERNATIONAL WORKSHOP ON SOFTWARE ENGINEERING FOR SMART CYBER-PHYSICAL SYSTEMS (SESCPS), 2018, : 1 - 1
  • [5] Multi-Paradigm Modelling for Design of Complex Heterogeneous Systems
    Vangheluwe, Hans
    [J]. 2008 JOINT IEEE NORTH-EAST WORKSHOP ON CIRCUITS AND SYSTEMS AND TAISA CONFERENCE, 2008, : 285 - 288
  • [6] A MULTI-PARADIGM APPROACH FOR MODELLING SERVICE INTERACTIONS IN MODEL-DRIVEN ENGINEERING PROCESSES
    Van Mierlo, Simon
    Van Tendeloo, Yentl
    David, Istvan
    Meyers, Bart
    Gebremichael, Addis
    Vangheluwe, Hans
    [J]. MODEL-DRIVEN APPROACHES FOR SIMULATION ENGINEERING (MOD4SIM 2018) / 2018 SPRING SIMULATION MULTICONFERENCE (SPRINGSIM), 2018,
  • [7] A Multi-Paradigm Modelling approach to live modelling
    Yentl Van Tendeloo
    Simon Van Mierlo
    Hans Vangheluwe
    [J]. Software & Systems Modeling, 2019, 18 : 2821 - 2842
  • [8] A Multi-Paradigm Modelling approach to live modelling
    Van Tendeloo, Yentl
    Van Mierlo, Simon
    Vangheluwe, Hans
    [J]. SOFTWARE AND SYSTEMS MODELING, 2019, 18 (05): : 2821 - 2842
  • [9] Multi-paradigm modelling for cyber–physical systems: a descriptive framework
    Moussa Amrani
    Dominique Blouin
    Robert Heinrich
    Arend Rensink
    Hans Vangheluwe
    Andreas Wortmann
    [J]. Software and Systems Modeling, 2021, 20 : 611 - 639
  • [10] Behavioural issues in software engineering process modelling: A multi-paradigm approach
    McGrath, GM
    [J]. PROCEEDINGS OF THE THIRTY-FIRST HAWAII INTERNATIONAL CONFERENCE ON SYSTEM SCIENCES, VOL VI: ORGANIZATIONAL SYSTEMS AND TECHNOLOGY TRACK, 1998, : 93 - 102
12345