ConferenceHugo Bruneliere, Romina Eramo, Abel Gómez, Valentin Besnard, Jean Michel Bruel, Martin Gogolla, Andreas Kästner, Adrian Rutle Model-Driven Engineering for Design-Runtime Interaction in Complex Systems: Scientific Challenges and Roadmap Software Technologies: Applications and Foundations, vol. 11176, Springer International Publishing, Cham, 2018, ISBN: 978-3-030-04771-9. Abstract | Links | BibTeX | Tags: Design Time, Model-Driven Engineering (MDE), Runtime, Traceability @conference{Bruneliere:MDEDeRun:2018,
title = {Model-Driven Engineering for Design-Runtime Interaction in Complex Systems: Scientific Challenges and Roadmap},
author = {Hugo Bruneliere and Romina Eramo and Abel G\'{o}mez and Valentin Besnard and Jean Michel Bruel and Martin Gogolla and Andreas K\"{a}stner and Adrian Rutle},
editor = {Manuel Mazzara and Iulian Ober and Gwen Sala\"{u}n},
doi = {10.1007/978-3-030-04771-9_40},
isbn = {978-3-030-04771-9},
year = {2018},
date = {2018-12-06},
booktitle = {Software Technologies: Applications and Foundations},
volume = {11176},
pages = {536--543},
publisher = {Springer International Publishing},
address = {Cham},
abstract = {This paper reports on the first Workshop on Model-Driven Engineering for Design-Runtime Interaction in Complex Systems (also called MDE@DeRun 2018) that took place during the STAF 2018 week. It explains the main objectives, content and results of the event. Based on these, the paper also proposes initial directions to explore for further research in the workshop area.},
keywords = {Design Time, Model-Driven Engineering (MDE), Runtime, Traceability},
pubstate = {published},
tppubtype = {conference}
}
This paper reports on the first Workshop on Model-Driven Engineering for Design-Runtime Interaction in Complex Systems (also called MDE@DeRun 2018) that took place during the STAF 2018 week. It explains the main objectives, content and results of the event. Based on these, the paper also proposes initial directions to explore for further research in the workshop area. |
ConferenceAbel Gómez, Orlando Avila-García, Jordi Cabot, José Ramón Juárez, Aitor Urbieta, Eugenio Villar The MegaM@Rt2 ECSEL Project: MegaModelling at Runtime — Scalable Model-based Framework for Continuous Development and Runtime Validation of Complex Systems Actas de las XXIII Jornadas de Ingeniería del Software y Bases de Datos (JISBD 2018), Sistedes, 2018. Abstract | Links | BibTeX | Tags: Design Time, MegaM@Rt2, Model-Driven Engineering (MDE), Runtime @conference{Gomez:JISBD:2018,
title = {The MegaM@Rt2 ECSEL Project: MegaModelling at Runtime \textemdash Scalable Model-based Framework for Continuous Development and Runtime Validation of Complex Systems},
author = {Abel G\'{o}mez and Orlando Avila-Garc\'{i}a and Jordi Cabot and Jos\'{e} Ram\'{o}n Ju\'{a}rez and Aitor Urbieta and Eugenio Villar},
editor = {Fernando S\'{a}nchez-Figueroa},
url = {http://hdl.handle.net/11705/JISBD/2018/023},
year = {2018},
date = {2018-09-17},
booktitle = {Actas de las XXIII Jornadas de Ingenier\'{i}a del Software y Bases de Datos (JISBD 2018)},
publisher = {Sistedes},
abstract = {A major challenge for the European electronic components and systems (ECS) industry is to increase productivity and reduce costs while ensuring safety and quality. Model-Driven Engineering (MDE) principles have already shown valuable capabilities for the development of ECSs but still need to scale to support real-world scenarios implied by the full deployment and use of complex electronic systems, such as Cyber-Physical Systems, and real-time systems. Moreover, maintaining efficient traceability, integration and communication between fundamental stages of the development lifecycle (i.e., design time and runtime) is another challenge to the scalability of MDE tools and techniques. This paper presents “MegaModelling at runtime \textemdash Scalable model-based framework for continuous development and runtime validation of complex systems” (MegaM@Rt2), an ECSEL\textendashJU project whose main goal is to address the above mentioned challenges. Driven by both large and small industrial enterprises, with the support of research partners and technology providers, MegaM@Rt2 aims to deliver a framework of tools and methods for: (i) system engineering/design and continuous development,(ii) related runtime analysis, and (iii) global model and traceability management.},
keywords = {Design Time, MegaM@Rt2, Model-Driven Engineering (MDE), Runtime},
pubstate = {published},
tppubtype = {conference}
}
A major challenge for the European electronic components and systems (ECS) industry is to increase productivity and reduce costs while ensuring safety and quality. Model-Driven Engineering (MDE) principles have already shown valuable capabilities for the development of ECSs but still need to scale to support real-world scenarios implied by the full deployment and use of complex electronic systems, such as Cyber-Physical Systems, and real-time systems. Moreover, maintaining efficient traceability, integration and communication between fundamental stages of the development lifecycle (i.e., design time and runtime) is another challenge to the scalability of MDE tools and techniques. This paper presents “MegaModelling at runtime — Scalable model-based framework for continuous development and runtime validation of complex systems” (MegaM@Rt2), an ECSEL–JU project whose main goal is to address the above mentioned challenges. Driven by both large and small industrial enterprises, with the support of research partners and technology providers, MegaM@Rt2 aims to deliver a framework of tools and methods for: (i) system engineering/design and continuous development,(ii) related runtime analysis, and (iii) global model and traceability management. Open Access |
Journal ArticleWasif Afzal, Hugo Bruneliere, Davide Di Ruscio, Andrey Sadovykh, Silvia Mazzini, Eric Cariou, Dragos Truscan, Jordi Cabot, Abel Gómez, Jesús Gorroñogoitia, Luigi Pomante, Pavel Smrz The MegaM@Rt2 ECSEL project: MegaModelling at Runtime – Scalable model-based framework for continuous development and runtime validation of complex systems In: Microprocessors and Microsystems, vol. 61, pp. 86 - 95, 2018, ISSN: 0141-9331. Abstract | Links | BibTeX | Tags: Design Time, MegaM@Rt2, Megamodelling, Model-Driven Engineering (MDE), Runtime @article{Afzal:MICPRO:2018,
title = {The MegaM@Rt2 ECSEL project: MegaModelling at Runtime \textendash Scalable model-based framework for continuous development and runtime validation of complex systems},
author = {Wasif Afzal and Hugo Bruneliere and Davide Di Ruscio and Andrey Sadovykh and Silvia Mazzini and Eric Cariou and Dragos Truscan and Jordi Cabot and Abel G\'{o}mez and Jes\'{u}s Gorro\~{n}ogoitia and Luigi Pomante and Pavel Smrz},
url = {https://abel.gomez.llana.me/wp-content/uploads/2018/06/afzal-2018-megamart2.pdf},
doi = {10.1016/j.micpro.2018.05.010},
issn = {0141-9331},
year = {2018},
date = {2018-01-01},
journal = {Microprocessors and Microsystems},
volume = {61},
pages = {86 - 95},
abstract = {A major challenge for the European electronic industry is to enhance productivity by ensuring quality of development, integration and maintenance while reducing the associated costs. Model-Driven Engineering (MDE) principles and techniques have already shown promising capabilities, but they still need to scale up to support real-world scenarios implied by the full deployment and use of complex electronic components and systems. Moreover, maintaining efficient traceability, integration, and communication between two fundamental system life cycle phases (design time and runtime) is another challenge requiring the scalability of MDE. This paper presents an overview of the ECSEL1 project entitled “MegaModelling at runtime \textendash Scalable model-based framework for continuous development and runtime validation of complex systems” (MegaM@Rt2), whose aim is to address the above mentioned challenges facing MDE. Driven by both large and small industrial enterprises, with the support of research partners and technology providers, MegaM@Rt2 aims to deliver a framework of tools and methods for: 1) system engineering/design and continuous development, 2) related runtime analysis and 3) global models and traceability management. Diverse industrial use cases (covering strategic domains such as aeronautics, railway, construction and telecommunications) will integrate and demonstrate the validity of the MegaM@Rt2 solution. This paper provides an overview of the MegaM@Rt2 project with respect to its approach, mission, objectives as well as to its implementation details. It further introduces the consortium as well as describes the work packages and few already produced deliverables.},
keywords = {Design Time, MegaM@Rt2, Megamodelling, Model-Driven Engineering (MDE), Runtime},
pubstate = {published},
tppubtype = {article}
}
A major challenge for the European electronic industry is to enhance productivity by ensuring quality of development, integration and maintenance while reducing the associated costs. Model-Driven Engineering (MDE) principles and techniques have already shown promising capabilities, but they still need to scale up to support real-world scenarios implied by the full deployment and use of complex electronic components and systems. Moreover, maintaining efficient traceability, integration, and communication between two fundamental system life cycle phases (design time and runtime) is another challenge requiring the scalability of MDE. This paper presents an overview of the ECSEL1 project entitled “MegaModelling at runtime – Scalable model-based framework for continuous development and runtime validation of complex systems” (MegaM@Rt2), whose aim is to address the above mentioned challenges facing MDE. Driven by both large and small industrial enterprises, with the support of research partners and technology providers, MegaM@Rt2 aims to deliver a framework of tools and methods for: 1) system engineering/design and continuous development, 2) related runtime analysis and 3) global models and traceability management. Diverse industrial use cases (covering strategic domains such as aeronautics, railway, construction and telecommunications) will integrate and demonstrate the validity of the MegaM@Rt2 solution. This paper provides an overview of the MegaM@Rt2 project with respect to its approach, mission, objectives as well as to its implementation details. It further introduces the consortium as well as describes the work packages and few already produced deliverables. Full Text AvailablePreprint |