| Towards an Interoperable Metamodel Suite: Size Assessment as One Input |
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| 作者姓名: | Brian Henderson-Sellers Muhammad Atif. Qureshi Cesar Gonzalez-Perez |
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| 作者单位: | Faculty of Engineering and Information Technology, University of Technology, Sydney, Broadway, NSW, Australia;Faculty of Engineering and Information Technology, University of Technology, Sydney, Broadway, NSW, Australia;Institute of Heritage Sciences (Incipit), Spanish National Research Council (CSIC), Santiago de Compostela, Spain |
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| 摘 要: | In recent years, many metamodels have been introduced in the software engineering literature and standards. These metamodels vary in their focus across, for example, process, product, organizational and measurement aspects of software development and have typically been developed independently of each other with shared concepts being only accidental. There is thus an increasing concern in the standards communities that possible conflicts of structure and semantics between these various metamodels will hinder their widespread adoption. The complexity of these metamodels has also increased significantly and is another barrier in their appreciation. This complexity is compounded when more than one metamodel is used in the lifecycle of a software project. Therefore there is a need to have interoperable metamodels. As a first step towards engendering interoperability and/or possible mergers between metamodels, we examine the size and complexity of various meta-models. To do this, we have used the Rossi and Brinkkemper metrics-based approach to evaluate the size and complexity of several standard metamodels including UML 2.3, BPMN 2.0, ODM, SMM and OSM. The size and complexity of these metamodels is also compared with the previous version of UML, BPMN and Activity diagrams. The comparatively large sizes of BPMN 2.0 and UML 2.3 suggest that future integration with these metamodels might be more di±cult than with the other metamodels under study (especially ODM, SSM and OSM).
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| 关 键 词: | BPMN UML ODM SMM OSM metamodel size complexity interoperability |
Towards an Interoperable Metamodel Suite: Size Assessment as One Input |
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| Authors: | Brian Henderson-Sellers Muhammad Atif Qureshi and Cesar Gonzalez-Perez |
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| Abstract: | In recent years, many metamodels have been introduced in the software engineering literature and standards. These metamodels vary in their focus across, for example, process, product, organizational and measurement aspects of software development and have typically been developed independently of each other with shared concepts being only accidental. There is thus an increasing concern in the standards communities that possible conflicts of structure and semantics between these various metamodels will hinder their widespread adoption. The complexity of these metamodels has also increased significantly and is another barrier in their appreciation. This complexity is compounded when more than one metamodel is used in the lifecycle of a software project. Therefore there is a need to have interoperable metamodels. As a first step towards engendering interoperability and/or possible mergers between metamodels, we examine the size and complexity of various meta-models. To do this, we have used the Rossi and Brinkkemper metrics-based approach to evaluate the size and complexity of several standard metamodels including UML 2.3, BPMN 2.0, ODM, SMM and OSM. The size and complexity of these metamodels is also compared with the previous version of UML, BPMN and Activity diagrams. The comparatively large sizes of BPMN 2.0 and UML 2.3 suggest that future integration with these metamodels might be more di±cult than with the other metamodels under study (especially ODM, SSM and OSM). |
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| Keywords: | BPMN UML ODM SMM OSM metamodel size complexity interoperability |
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