Measuring Models

Model-Driven Engineering (MDE) is an approach to software development that uses models as primary artifacts, from which code, documentation and tests are derived. One way of assessing quality assurance in a given domain is to define domain metrics. We show that some of these metrics are supported by models. As text documents, models can be considered from a syntactic point of view i.e., thought of as graphs. We can readily apply graph-based metrics to them, such as the number of nodes, the number of edges or the fan-in/fan-out distributions. However, these metrics cannot leverage the semantic structuring enforced by each specific metamodel to give domain specific information. Contrary to graph-based metrics, more specific metrics do exist for given domains (such as LOC for programs), but they lack genericity. Our contribution is to propose one metric, called s, that is generic over metamodels and allows the easy specification of an open-ended wide range of model metrics.

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Transitioning from Code-Centric to Model-Driven Industrial Projects

Model-Driven Software Development ◽

10.4018/978-1-60566-006-6.ch010 ◽

2009 ◽

pp. 236-262 ◽

Cited By ~ 3

Author(s):

Miroslaw Staron

Keyword(s):

Quality Assurance ◽

Software Development ◽

Software Quality ◽

Software Quality Assurance ◽

Field Development ◽

Model Driven ◽

Domain Specific ◽

Model Driven Software Development ◽

Industrial Projects ◽

New Challenges

Introducing Model Driven Software Development (MDSD) into industrial projects is rarely done as a “green field” development. The usual path is to make a transition from code-centric (CC) development in existing projects into MDSD in a step-wise manner. Similarly to all other software development activities; software quality assurance needs to be adjusted to meet the new challenges arising when using models instead of the code for the mainstream development. In this chapter we present a set of empirical data on the issues related to transitioning from CC to MDSD projects in industry. First; we present results from a set of experiments evaluating how a domain specific notation affects the effectiveness and efficiency of reading techniques used for inspecting models. Second; we present a comparison of productivity increase when changing to MDSD projects from one of the large Swedish companies. Finally we present a short survey on the prioritization of products; projects; and resource metrics in MDSD projects.

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Diseño de Servicios Web Semánticos utilizando el desarrollo de software dirigido por modelos [Semantic Web Services design using model-driven software development]

Ventana informatica ◽

10.30554/ventanainform.30.286.2014 ◽

2014 ◽

Author(s):

Wilman Vega ◽

Henry Umaña

Keyword(s):

Web Services ◽

Semantic Web ◽

Software Development ◽

Semantic Web Services ◽

Model Driven Development ◽

Model Driven ◽

Dynamic Composition ◽

Palabras Clave ◽

Wide Range ◽

Model Driven Software Development

Resumen Los Servicios Web Semánticos ofrecen beneficios, que coadyuvan a la evolución de la Web, como el descubrimiento, invocación y composición dinámica y automática de recursos, habilitan efectivamente la interoperabilidad entre sistemas, permitiendo una amplia gama de nuevos servicios y oportunidades de negocios en la Internet. La estructura necesaria para proveer estos beneficios, hace que su desarrollo sea un proceso complejo, requiriendo establecer formas más fáciles y dinámicas que garanticen reutilización, calidad y rapidez. El desarrollo dirigido por modelos realiza una contribución eficiente en estos aspectos, dado que trabaja de manera intrínseca conceptos como separación de conceptos, reusabilidad e interoperabilidad entre componentes. En este artículo se presenta un enfoque para desarrollo de software dirigido por modelos, orientado al desarrollo de los servicios web semánticos, donde inicialmente se plantean las fases correspondientes al análisis, diseño y desarrollo dentro de la metodología propuesta, aplicando la metodología sobre un pequeño caso de estudio y obtener como resultado la estructura de un Servicio web semántico. Palabras Clave: Servicios web semánticos, Desarrollo dirigido por modelos, ontologías web. Abstract Semantic Web Services offers benefits that contribute to Web evolution. Benefits such as automatic discovery and invocation, and dynamic composition, effectively enables systems interoperability, allowing a wide range of services and Internet businesses. The necessary structure to provide those benefits by Semantic Web Services makes its development a complex process. It necessary to establish more easy and dynamic ways to develop this kind of software, in order to assure reuse, quality and speediness in the development process. The model-driven software development makes an efficient contribution in those aspect, because it works intrinsically concepts related such separation of concerns, reusability and components interoperability. In this paper we present an approach to model-driven development software applied to Semantic Web Services. First, we establish the phases corresponding to the analysis, design and development in the proposal methodology, by applying it to a case of study we obtain the structure of a Semantic Web Services. Keywords: Semantic Web Services, Model-Driven Development, Web Ontologies.

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Gade4all: Developing Multi-platform Videogames based on Domain Specific Languages and Model Driven Engineering

International Journal of Interactive Multimedia and Artificial Intelligence ◽

10.9781/ijimai.2013.224 ◽

2013 ◽

Vol 2 (2) ◽

pp. 33 ◽

Cited By ~ 4

Author(s):

Edward Nu�ez-Valdez ◽

Oscar Sanjuan-Martinez ◽

Cristina Pelayo G-Bustelo ◽

Juan Manuel Cueva-Lovelle ◽

Guillermo Infante-Hernandez

Keyword(s):

Model Driven Engineering ◽

Domain Specific Languages ◽

Model Driven ◽

Domain Specific

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Dependability Modeling and Assessment in UML-Based Software Development

The Scientific World JOURNAL ◽

10.1100/2012/614635 ◽

2012 ◽

Vol 2012 ◽

pp. 1-11 ◽

Cited By ~ 3

Author(s):

Simona Bernardi ◽

José Merseguer ◽

Dorina C. Petriu

Keyword(s):

Software Development ◽

Formal Model ◽

General Purpose ◽

Software Modeling ◽

Model Driven ◽

Domain Specific ◽

Software Model ◽

Software Models ◽

Assessment Approach ◽

System Properties

Assessment of software nonfunctional properties (NFP) is an important problem in software development. In the context of model-driven development, an emerging approach for the analysis of different NFPs consists of the following steps: (a) to extend the software models with annotations describing the NFP of interest; (b) to transform automatically the annotated software model to the formalism chosen for NFP analysis; (c) to analyze the formal model using existing solvers; (d) to assess the software based on the results and give feedback to designers. Such a modeling→analysis→assessment approach can be applied to any software modeling language, be it general purpose or domain specific. In this paper, we focus on UML-based development and on the dependability NFP, which encompasses reliability, availability, safety, integrity, and maintainability. The paper presents the profile used to extend UML with dependability information, the model transformation to generate a DSPN formal model, and the assessment of the system properties based on the DSPN results.

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Model-driven engineering with domain-specific meta-modelling languages

Software & Systems Modeling ◽

10.1007/s10270-013-0367-z ◽

2013 ◽

Vol 14 (1) ◽

pp. 429-459 ◽

Cited By ~ 24

Author(s):

Juan de Lara ◽

Esther Guerra ◽

Jesús Sánchez Cuadrado

Keyword(s):

Model Driven Engineering ◽

Model Driven ◽

Modelling Languages ◽

Domain Specific

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Model-Driven Engineering and Software Development

10.1007/978-3-319-66302-9 ◽

2017 ◽

Keyword(s):

Software Development ◽

Model Driven Engineering ◽

Model Driven

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BEYOND INFORMATION SILOS — AN OMNIPRESENT APPROACH TO SOFTWARE EVOLUTION

International Journal of Semantic Computing ◽

10.1142/s1793351x08000567 ◽

2008 ◽

Vol 02 (04) ◽

pp. 431-468 ◽

Cited By ~ 9

Author(s):

JUERGEN RILLING ◽

RENÉ WITTE ◽

PHILIPP SCHUEGERL ◽

PHILIPPE CHARLAND

Keyword(s):

Software Development ◽

Software Maintenance ◽

Conceptual Models ◽

Software Evolution ◽

Specific Information ◽

Historical Knowledge ◽

Knowledge Based ◽

Distributed Processes ◽

Wide Range ◽

Abstraction Levels

Nowadays, software development and maintenance are highly distributed processes that involve a multitude of supporting tools and resources. Knowledge relevant for a particular software maintenance task is typically dispersed over a wide range of artifacts in different representational formats and at different abstraction levels, resulting in isolated 'information silos'. An increasing number of task-specific software tools aim to support developers, but this often results in additional challenges, as not every project member can be familiar with every tool and its applicability for a given problem. Furthermore, historical knowledge about successfully performed modifications is lost, since only the result is recorded in versioning systems, but not how a developer arrived at the solution. In this research, we introduce conceptual models for the software domain that go beyond existing program and tool models, by including maintenance processes and their constituents. The models are supported by a pro-active, ambient, knowledge-based environment that integrates users, tasks, tools, and resources, as well as processes and history-specific information. Given this ambient environment, we demonstrate how maintainers can be supported with contextual guidance during typical maintenance tasks through the use of ontology queries and reasoning services.

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