Integrated modelling and simulation method of hybrid systems based on X language
Abstract Model‐based systems engineering is now leading the way in supporting the design of complex products or systems. The integration of modelling and simulation of continuous‐discrete hybrid systems is the key of model‐based systems engineering. But the existing languages, formalisms and tools c...
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Format: | Article |
Language: | English |
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Wiley
2024-12-01
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Series: | IET Collaborative Intelligent Manufacturing |
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Online Access: | https://doi.org/10.1049/cim2.70006 |
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author | Kunyu Xie Lin Zhang Xiaohan Wang Kunyu Wang Yingjie Li |
author_facet | Kunyu Xie Lin Zhang Xiaohan Wang Kunyu Wang Yingjie Li |
author_sort | Kunyu Xie |
collection | DOAJ |
description | Abstract Model‐based systems engineering is now leading the way in supporting the design of complex products or systems. The integration of modelling and simulation of continuous‐discrete hybrid systems is the key of model‐based systems engineering. But the existing languages, formalisms and tools cannot support the unified modelling and simulation of hybrid systems and therefore reduces the efficiency of complex system development. To address this issue, this paper develops a design method of complex hybrid systems, which integrates modelling and simulation of the continuous‐discrete hybrid behaviour. Specifically, the authors provided a modelling method of hybrid systems based on the X language, a simulation method based on XDEVS, and a compilation algorithm to transform the hybrid model constructed with X language into XDEVS simulation files. In this way, the X language hybrid model can be automatically translated into XDEVS simulation files by a compiler. The simulation files can then be simulated by the XDEVS simulation engine. The obtained simulation results will be used to verify whether the design scheme meets the design requirements of the hybrid system. Finally, the correctness and feasibility of the proposed method are verified using a car‐driving model. |
format | Article |
id | doaj-art-873f31bd0ff443859cdad2cb65f0c0f9 |
institution | Kabale University |
issn | 2516-8398 |
language | English |
publishDate | 2024-12-01 |
publisher | Wiley |
record_format | Article |
series | IET Collaborative Intelligent Manufacturing |
spelling | doaj-art-873f31bd0ff443859cdad2cb65f0c0f92024-12-28T04:20:30ZengWileyIET Collaborative Intelligent Manufacturing2516-83982024-12-0164n/an/a10.1049/cim2.70006Integrated modelling and simulation method of hybrid systems based on X languageKunyu Xie0Lin Zhang1Xiaohan Wang2Kunyu Wang3Yingjie Li4International Simulation Technology Innovation Center Hangzhou International Innovation Institute of Beihang University Hangzhou Zhejiang ChinaInternational Simulation Technology Innovation Center Hangzhou International Innovation Institute of Beihang University Hangzhou Zhejiang ChinaInternational Simulation Technology Innovation Center Hangzhou International Innovation Institute of Beihang University Hangzhou Zhejiang ChinaInternational Simulation Technology Innovation Center Hangzhou International Innovation Institute of Beihang University Hangzhou Zhejiang ChinaIndustrial Technology Research Institute Aviation Industry Development Research Center of China Beijing ChinaAbstract Model‐based systems engineering is now leading the way in supporting the design of complex products or systems. The integration of modelling and simulation of continuous‐discrete hybrid systems is the key of model‐based systems engineering. But the existing languages, formalisms and tools cannot support the unified modelling and simulation of hybrid systems and therefore reduces the efficiency of complex system development. To address this issue, this paper develops a design method of complex hybrid systems, which integrates modelling and simulation of the continuous‐discrete hybrid behaviour. Specifically, the authors provided a modelling method of hybrid systems based on the X language, a simulation method based on XDEVS, and a compilation algorithm to transform the hybrid model constructed with X language into XDEVS simulation files. In this way, the X language hybrid model can be automatically translated into XDEVS simulation files by a compiler. The simulation files can then be simulated by the XDEVS simulation engine. The obtained simulation results will be used to verify whether the design scheme meets the design requirements of the hybrid system. Finally, the correctness and feasibility of the proposed method are verified using a car‐driving model.https://doi.org/10.1049/cim2.70006logisticsmanufacturing industriesmanufacturing systems |
spellingShingle | Kunyu Xie Lin Zhang Xiaohan Wang Kunyu Wang Yingjie Li Integrated modelling and simulation method of hybrid systems based on X language IET Collaborative Intelligent Manufacturing logistics manufacturing industries manufacturing systems |
title | Integrated modelling and simulation method of hybrid systems based on X language |
title_full | Integrated modelling and simulation method of hybrid systems based on X language |
title_fullStr | Integrated modelling and simulation method of hybrid systems based on X language |
title_full_unstemmed | Integrated modelling and simulation method of hybrid systems based on X language |
title_short | Integrated modelling and simulation method of hybrid systems based on X language |
title_sort | integrated modelling and simulation method of hybrid systems based on x language |
topic | logistics manufacturing industries manufacturing systems |
url | https://doi.org/10.1049/cim2.70006 |
work_keys_str_mv | AT kunyuxie integratedmodellingandsimulationmethodofhybridsystemsbasedonxlanguage AT linzhang integratedmodellingandsimulationmethodofhybridsystemsbasedonxlanguage AT xiaohanwang integratedmodellingandsimulationmethodofhybridsystemsbasedonxlanguage AT kunyuwang integratedmodellingandsimulationmethodofhybridsystemsbasedonxlanguage AT yingjieli integratedmodellingandsimulationmethodofhybridsystemsbasedonxlanguage |