ConferenceAbel Gómez, Xabier Mendialdua, Konstantinos Barmpis, Gábor Bergmann, Jordi Cabot, Xabier de Carlos, Csaba Debreceni, Antonio Garmendia, Dimitrios S. Kolovos, Juan de Lara Scalable Modeling Technologies in the Wild: An Experience Report on Wind Turbines Control Applications Development (Abstract) Actas de las XXV Jornadas de Ingeniería del Software y Bases de Datos (JISBD 2021), Málaga, septiembre de 2021., Sistedes Sistedes, 2021. Abstract | Links | BibTeX | Tags: Experience Report, Model-Driven Engineering (MDE), MONDO, Wind Turbine (WT) @conference{G\'{o}mez:JISBD:2021,
title = {Scalable Modeling Technologies in the Wild: An Experience Report on Wind Turbines Control Applications Development (Abstract)},
author = {Abel G\'{o}mez and Xabier Mendialdua and Konstantinos Barmpis and G\'{a}bor Bergmann and Jordi Cabot and Xabier de Carlos and Csaba Debreceni and Antonio Garmendia and Dimitrios S. Kolovos and Juan de Lara},
editor = {Silvia Abrah\~{a}o},
url = {http://hdl.handle.net/11705/JISBD/2021/075},
year = {2021},
date = {2021-09-22},
urldate = {2021-09-22},
booktitle = {Actas de las XXV Jornadas de Ingenier\'{i}a del Software y Bases de Datos (JISBD 2021), M\'{a}laga, septiembre de 2021.},
publisher = {Sistedes},
organization = {Sistedes},
abstract = {Scalability in modeling has many facets, including the ability to build larger models and domain-specific languages (DSLs) efficiently. With the aim of tackling some of the most prominent scalability challenges in model-based engineering (MBE), the MONDO EU project developed the theoretical foundations and open-source implementation of a platform for scalable modeling and model management. The platform includes facilities for building large graphical DSLs, for splitting large models into sets of smaller interrelated fragments, to index large collections of models to speed-up their querying, and to enable the collaborative construction and refinement of complex models, among other features. This paper reports on the tools provided by MONDO that Ikerlan, a medium-sized technology center which in the last decade has embraced the MBE paradigm, adopted in order to improve their processes. This experience produced as a result a set of model editors and related technologies that fostered collaboration and scalability in the development of wind turbine control applications. In order to evaluate the benefits obtained, an on-site evaluation of the tools was performed. This evaluation shows that scalable MBE technologies give new growth opportunities to small- and medium-sized organizations.},
keywords = {Experience Report, Model-Driven Engineering (MDE), MONDO, Wind Turbine (WT)},
pubstate = {published},
tppubtype = {conference}
}
Scalability in modeling has many facets, including the ability to build larger models and domain-specific languages (DSLs) efficiently. With the aim of tackling some of the most prominent scalability challenges in model-based engineering (MBE), the MONDO EU project developed the theoretical foundations and open-source implementation of a platform for scalable modeling and model management. The platform includes facilities for building large graphical DSLs, for splitting large models into sets of smaller interrelated fragments, to index large collections of models to speed-up their querying, and to enable the collaborative construction and refinement of complex models, among other features. This paper reports on the tools provided by MONDO that Ikerlan, a medium-sized technology center which in the last decade has embraced the MBE paradigm, adopted in order to improve their processes. This experience produced as a result a set of model editors and related technologies that fostered collaboration and scalability in the development of wind turbine control applications. In order to evaluate the benefits obtained, an on-site evaluation of the tools was performed. This evaluation shows that scalable MBE technologies give new growth opportunities to small- and medium-sized organizations. Abstract |
Journal ArticleAbel Gómez, Xabier Mendialdua, Konstantinos Barmpis, Gábor Bergmann, Jordi Cabot, Xabier de Carlos, Csaba Debreceni, Antonio Garmendia, Dimitrios S. Kolovos, Juan de Lara Scalable modeling technologies in the wild: an experience report on wind turbines control applications development In: Software and Systems Modeling, vol. 19, no. 5, pp. 1229–1261, 2020, ISSN: 1619-1374. Abstract | Links | BibTeX | Tags: Experience Report, Model-Driven Engineering (MDE), MONDO, Wind Turbine (WT) @article{Gomez:SoSym:2020,
title = {Scalable modeling technologies in the wild: an experience report on wind turbines control applications development},
author = {Abel G\'{o}mez and Xabier Mendialdua and Konstantinos Barmpis and G\'{a}bor Bergmann and Jordi Cabot and Xabier de Carlos and Csaba Debreceni and Antonio Garmendia and Dimitrios S. Kolovos and Juan de Lara},
url = {https://rdcu.be/b0E0T},
doi = {10.1007/s10270-020-00776-8},
issn = {1619-1374},
year = {2020},
date = {2020-01-22},
journal = {Software and Systems Modeling},
volume = {19},
number = {5},
pages = {1229\textendash1261},
abstract = {Scalability in modeling has many facets, including the ability to build larger models and domain-specific languages (DSLs) efficiently. With the aim of tackling some of the most prominent scalability challenges in model-based engineering (MBE), the MONDO EU project developed the theoretical foundations and open-source implementation of a platform for scalable modeling and model management. The platform includes facilities for building large graphical DSLs, for splitting large models into sets of smaller interrelated fragments, to index large collections of models to speed-up their querying, and to enable the collaborative construction and refinement of complex models, among other features. This paper reports on the tools provided by MONDO that Ikerlan, a medium-sized technology center which in the last decade has embraced the MBE paradigm, adopted in order to improve their processes. This experience produced as a result a set of model editors and related technologies that fostered collaboration and scalability in the development of wind turbine control applications. In order to evaluate the benefits obtained, an on-site evaluation of the tools was performed. This evaluation shows that scalable MBE technologies give new growth opportunities to small- and medium-sized organizations.},
keywords = {Experience Report, Model-Driven Engineering (MDE), MONDO, Wind Turbine (WT)},
pubstate = {published},
tppubtype = {article}
}
Scalability in modeling has many facets, including the ability to build larger models and domain-specific languages (DSLs) efficiently. With the aim of tackling some of the most prominent scalability challenges in model-based engineering (MBE), the MONDO EU project developed the theoretical foundations and open-source implementation of a platform for scalable modeling and model management. The platform includes facilities for building large graphical DSLs, for splitting large models into sets of smaller interrelated fragments, to index large collections of models to speed-up their querying, and to enable the collaborative construction and refinement of complex models, among other features. This paper reports on the tools provided by MONDO that Ikerlan, a medium-sized technology center which in the last decade has embraced the MBE paradigm, adopted in order to improve their processes. This experience produced as a result a set of model editors and related technologies that fostered collaboration and scalability in the development of wind turbine control applications. In order to evaluate the benefits obtained, an on-site evaluation of the tools was performed. This evaluation shows that scalable MBE technologies give new growth opportunities to small- and medium-sized organizations. Full Text Available |