2011
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Journal ArticleBeatriz Mora, Félix García, Francisco Ruiz, Mario Piattini, Artur Boronat, Abel Gómez, José Á. Carsí, Isidro Ramos Software Generic Measurement Framework Based on MDA In: IEEE Latin America Transactions, vol. 9, no. 1, pp. 864-871, 2011, ISSN: 1548-0992. Abstract | Links | BibTeX | Tags: Framework for the Modeling and Evaluation of Software Processes (FMESP), Measurement, Model-Driven Architecture (MDA), MOMENT, Query/View/Transformation (QVT) @article{Mora:IEEELatAm:2011,
title = {Software Generic Measurement Framework Based on MDA},
author = {Beatriz Mora and F\'{e}lix Garc\'{i}a and Francisco Ruiz and Mario Piattini and Artur Boronat and Abel G\'{o}mez and Jos\'{e} \'{A}. Cars\'{i} and Isidro Ramos},
doi = {10.1109/TLA.2011.5876432},
issn = {1548-0992},
year = {2011},
date = {2011-03-01},
journal = {IEEE Latin America Transactions},
volume = {9},
number = {1},
pages = {864-871},
abstract = {Currently, in order to obtain high quality software products it is necessary to carry out a good software processes management in which measurement is a fundamental factor. Due to the great diversity of entities involved in software measurement, a consistent framework to integrate the different entities in the measurement process is required. In this paper the Software Measurement Framework (SMF) is presented, which supports the measurement of any type of software entity through the metamodels which depict them. In this framework, any software entity in any domain could be measured with a common Software Measurement metamodel and by means of QVT transformations. This work explains the three fundamental elements of the Software Measurement Framework (conceptual architecture, technological aspects and method). These elements have all been adapted to the MDE paradigm and to MDA technology, taking advantage of their benefits within the field of software measurement. Furthermore an example which illustrates the framework's application to a concrete domain is furthermore shown.},
keywords = {Framework for the Modeling and Evaluation of Software Processes (FMESP), Measurement, Model-Driven Architecture (MDA), MOMENT, Query/View/Transformation (QVT)},
pubstate = {published},
tppubtype = {article}
}
Currently, in order to obtain high quality software products it is necessary to carry out a good software processes management in which measurement is a fundamental factor. Due to the great diversity of entities involved in software measurement, a consistent framework to integrate the different entities in the measurement process is required. In this paper the Software Measurement Framework (SMF) is presented, which supports the measurement of any type of software entity through the metamodels which depict them. In this framework, any software entity in any domain could be measured with a common Software Measurement metamodel and by means of QVT transformations. This work explains the three fundamental elements of the Software Measurement Framework (conceptual architecture, technological aspects and method). These elements have all been adapted to the MDE paradigm and to MDA technology, taking advantage of their benefits within the field of software measurement. Furthermore an example which illustrates the framework's application to a concrete domain is furthermore shown. |
2008
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Journal ArticleBeatriz Mora, Félix García, Francisco Ruiz, Mario Piattini, Artur Boronat, Abel Gómez, José Á. Carsí, Isidro Ramos JISBD2007-08: Software generic measurement framework based on MDA In: IEEE Latin America Transactions, vol. 6, no. 4, pp. 363-370, 2008, ISSN: 1548-0992. Abstract | Links | BibTeX | Tags: Framework for the Modeling and Evaluation of Software Processes (FMESP), Measurement, Model-Driven Architecture (MDA), MOMENT, Query/View/Transformation (QVT) @article{Mora:IEEELatAm:2008,
title = {JISBD2007-08: Software generic measurement framework based on MDA},
author = {Beatriz Mora and F\'{e}lix Garc\'{i}a and Francisco Ruiz and Mario Piattini and Artur Boronat and Abel G\'{o}mez and Jos\'{e} \'{A}. Cars\'{i} and Isidro Ramos},
doi = {10.1109/TLA.2008.4815290},
issn = {1548-0992},
year = {2008},
date = {2008-08-01},
journal = {IEEE Latin America Transactions},
volume = {6},
number = {4},
pages = {363-370},
abstract = {Currently, in order to obtain high quality software products it is necessary to carry out a good software processes management in which measurement is a fundamental factor. Due to the great diversity of entities involved in software measurement, a consistent framework to integrate the different entities in the measurement process is required. In this paper the software measurement framework (SMF) is presented, which supports the measurement of any type of software entity through the metamodels which depict them. In this framework, any software entity in any domain could be measured with a common software Measurement metamodel and by means of QVT transformations. This work explains the three fundamental elements of the software measurement framework (conceptual architecture, technological aspects and method). These elements have all been adapted to the MDE paradigm and to MDA technology, taking advantage of their benefits within the field of software measurement. Furthermore an example which illustrates the framework's application to a concrete domain is furthermore shown.},
keywords = {Framework for the Modeling and Evaluation of Software Processes (FMESP), Measurement, Model-Driven Architecture (MDA), MOMENT, Query/View/Transformation (QVT)},
pubstate = {published},
tppubtype = {article}
}
Currently, in order to obtain high quality software products it is necessary to carry out a good software processes management in which measurement is a fundamental factor. Due to the great diversity of entities involved in software measurement, a consistent framework to integrate the different entities in the measurement process is required. In this paper the software measurement framework (SMF) is presented, which supports the measurement of any type of software entity through the metamodels which depict them. In this framework, any software entity in any domain could be measured with a common software Measurement metamodel and by means of QVT transformations. This work explains the three fundamental elements of the software measurement framework (conceptual architecture, technological aspects and method). These elements have all been adapted to the MDE paradigm and to MDA technology, taking advantage of their benefits within the field of software measurement. Furthermore an example which illustrates the framework's application to a concrete domain is furthermore shown. Spanish |
ConferenceBeatriz Mora, Félix García, Francisco Ruiz, Mario Piattini, Artur Boronat, Abel Gómez, José Á. Carsí, Isidro Ramos Software Measurement by Using QVT Transformations in an MDA Context Proceedings of the Tenth International Conference on Enterprise Information Systems (ICEIS 2008), vol. 1, INSTICC SciTePress, 2008, ISBN: 978-989-8111-36-4, (Barcelona, Spain). Abstract | Links | BibTeX | Tags: Framework for the Modeling and Evaluation of Software Processes (FMESP), Measurement, Model-Driven Architecture (MDA), MOMENT, Query/View/Transformation (QVT) @conference{Mora:ICEIS:2008,
title = {Software Measurement by Using QVT Transformations in an MDA Context},
author = {Beatriz Mora and F\'{e}lix Garc\'{i}a and Francisco Ruiz and Mario Piattini and Artur Boronat and Abel G\'{o}mez and Jos\'{e} \'{A}. Cars\'{i} and Isidro Ramos},
editor = {Jos\'{e} Cordeiro and Joaquim Filipe},
doi = {10.5220/0001677901170124},
isbn = {978-989-8111-36-4},
year = {2008},
date = {2008-01-01},
booktitle = {Proceedings of the Tenth International Conference on Enterprise Information Systems (ICEIS 2008)},
volume = {1},
pages = {117--124},
publisher = {SciTePress},
organization = {INSTICC},
abstract = {At present the objective of obtaining quality software products has led to the necessity of carrying out good software processes management in which measurement is a fundamental factor. Due to the great diversity of entities involved in software measurement, a consistent framework is necessary to integrate the different entities in the measurement process. In this work a Software Measurement Framework (SMF) is presented to measure any type of software entity. In this framework, any software entity in any domain could be measured with a common Software Measurement metamodel and QVT transformations. This work explains the three fundamental elements of the Software Measurement Framework (conceptual architecture, technological aspects and method). These elements have all been adapted to the MDE paradigm and to MDA technology, taking advantage of their benefits within the field of software measurement. Furthermore an example which illustrates the framework’s application to a concrete domai n is furthermore shown. },
note = {Barcelona, Spain},
keywords = {Framework for the Modeling and Evaluation of Software Processes (FMESP), Measurement, Model-Driven Architecture (MDA), MOMENT, Query/View/Transformation (QVT)},
pubstate = {published},
tppubtype = {conference}
}
At present the objective of obtaining quality software products has led to the necessity of carrying out good software processes management in which measurement is a fundamental factor. Due to the great diversity of entities involved in software measurement, a consistent framework is necessary to integrate the different entities in the measurement process. In this work a Software Measurement Framework (SMF) is presented to measure any type of software entity. In this framework, any software entity in any domain could be measured with a common Software Measurement metamodel and QVT transformations. This work explains the three fundamental elements of the Software Measurement Framework (conceptual architecture, technological aspects and method). These elements have all been adapted to the MDE paradigm and to MDA technology, taking advantage of their benefits within the field of software measurement. Furthermore an example which illustrates the framework’s application to a concrete domai n is furthermore shown. Open Access |
2007
|
ConferenceBeatriz Mora, Félix García, Francisco Ruiz, Mario Piattini, Artur Boronat, Abel Gómez, José Á. Carsí, Isidro Ramos Marco de Trabajo basado en MDA para la medición Genérica del Software Actas de las XII Jornadas de Ingeniería del Software y Bases de Datos (JISBD 2007), Zaragoza, Spain, September 11-14, 2007., Thomson Editorial, 2007, ISBN: 978-84-9732-595-0. Abstract | Links | BibTeX | Tags: Framework for the Modeling and Evaluation of Software Processes (FMESP), Measurement, Model-Driven Architecture (MDA), MOMENT, Query/View/Transformation (QVT) @conference{Mora:JISBD:2007,
title = {Marco de Trabajo basado en MDA para la medici\'{o}n Gen\'{e}rica del Software},
author = {Beatriz Mora and F\'{e}lix Garc\'{i}a and Francisco Ruiz and Mario Piattini and Artur Boronat and Abel G\'{o}mez and Jos\'{e} \'{A}. Cars\'{i} and Isidro Ramos},
editor = {Xavier Franch},
url = {https://abel.gomez.llana.me/wp-content/uploads/2017/11/mora-jisbd-2007.pdf},
isbn = {978-84-9732-595-0},
year = {2007},
date = {2007-09-11},
booktitle = {Actas de las XII Jornadas de Ingenier\'{i}a del Software y Bases de Datos (JISBD 2007), Zaragoza, Spain, September 11-14, 2007.},
pages = {211--220},
publisher = {Thomson Editorial},
abstract = {Actualmente, con el objetivo de obtener productos software de calidad es necesario llevar a cabo una buena gesti\'{o}n de los procesos software donde la medici\'{o}n de los procesos se convierte en un factor fundamental. Debido a la gran variedad de entidades candidatas para la medici\'{o}n, se considera necesario un marco consistente para integrar la medici\'{o}n de los distintos tipos de entidades. En este trabajo se presenta la propuesta de un entorno gen\'{e}rico para la medici\'{o}n de cualquier entidad software a partir de los metamodelos que las representan. Partiendo de un metamodelo com\'{u}n de medici\'{o}n, y mediante transformaciones QVT, se puede llevar a cabo la medici\'{o}n de un modelo de dominio cualquiera. En el trabajo se explica como se ha llevado a cabo la propuesta: por un lado, se ha trabajado con la herramienta MOMENT, que proporciona el soporte necesario para la gesti\'{o}n autom\'{a}tica de modelos de acuerdo a MDE y a la arquitectura MDA, por otro lado, se ha adaptado FMESP a MDA. FMESP es un marco de trabajo para la integraci\'{o}n del modelado y de la medici\'{o}n de procesos software, que sirve de base conceptual y tecnol\'{o}gica para su mejora. Adem\'{a}s, se muestran las etapas a seguir para conseguir la medici\'{o}n gen\'{e}rica basada en MDA, y un caso de ejemplo en el dominio de bases de datos relacionales.},
keywords = {Framework for the Modeling and Evaluation of Software Processes (FMESP), Measurement, Model-Driven Architecture (MDA), MOMENT, Query/View/Transformation (QVT)},
pubstate = {published},
tppubtype = {conference}
}
Actualmente, con el objetivo de obtener productos software de calidad es necesario llevar a cabo una buena gestión de los procesos software donde la medición de los procesos se convierte en un factor fundamental. Debido a la gran variedad de entidades candidatas para la medición, se considera necesario un marco consistente para integrar la medición de los distintos tipos de entidades. En este trabajo se presenta la propuesta de un entorno genérico para la medición de cualquier entidad software a partir de los metamodelos que las representan. Partiendo de un metamodelo común de medición, y mediante transformaciones QVT, se puede llevar a cabo la medición de un modelo de dominio cualquiera. En el trabajo se explica como se ha llevado a cabo la propuesta: por un lado, se ha trabajado con la herramienta MOMENT, que proporciona el soporte necesario para la gestión automática de modelos de acuerdo a MDE y a la arquitectura MDA, por otro lado, se ha adaptado FMESP a MDA. FMESP es un marco de trabajo para la integración del modelado y de la medición de procesos software, que sirve de base conceptual y tecnológica para su mejora. Además, se muestran las etapas a seguir para conseguir la medición genérica basada en MDA, y un caso de ejemplo en el dominio de bases de datos relacionales. Full Text AvailablePreprintSpanish |