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Understanding, predicting, and controlling performance is a continuous challenge, and static measurement systems are inadequate in dynamic and rapidly changing business environments. In this paper, we propose a generic, flexible and integrated Measurement System Repository to handle continuously changing business conditions, and we report our exper...
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One of the most critical processes of Component-based Software Development (CBSD) is the selection of the set of components (either from in- house or from external repositories) that fulfil the appropriate architectural and user-defined requirements. This process opens the need to count with objective methods that help developers evaluate the compo...
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... The object-oriented data model with all the class diagrams and associations for the Repository tool is illustrated inFigure 4 andTable 1.Table 1 presents a brief description of the entities involved in the objectoriented data model. Detailed information of all of the entities considered in the model are presented in [11].Table 1. List of the Measurement classes ...
We propose a measurement repository for collecting, storing, analyzing and reporting measurement data based on the requirements of the capability maturity model integrated (CMMI). Our repository is generic, flexible and integrated, supporting a dynamic measurement system. It was originally designed to support Ericsson Research Canada's business information needs. Our multidimensional repository can relate measurement information needs to CMMI processes and products requirements. The data model is based on a hierarchical and multidimensional definition of measurement data. It has been developed based on the concept of a data warehouse environment. Reporting features are based on the definition of queries to on line analytical process (OLAP) cubes. OLAP cubes are created as materialized views of the measurement data, and the user functionalities are implemented as analytical drill-down/roll-up capabilities and as indicator and trend analysis capabilities.
... In this section, we present the basics characteristics of the V&V MMT. The V&V MMT is based on a meta-model repository whose design is documented in [5]. The core of the V&V MMT contains a database structure that does not presuppose any particular measures or relationship between them; the measures themselves are treated as data. ...
This paper presents a V&V Measurement Management Tool (V&V MMT) to support the Management of V&V activities in the context of safety-critical software. We illustrate how V&V MMT can facilitate the quantification of the V&V processes, activities and tasks in projects recommended in the IEEE Standard for Software Verification and Validation (IEEE Std. 1012-1998) for facilitating the establishment of V&V measurement indicators: (1) Software Verification and Validation Plan (SVVP), (2) Baseline change assessment, (3) Management Review of V&V, (4) Management and Technical Review Support, (5) Interface with Organizational and Supporting Process.
We aim to improve quality in software engineering projects by introducing Verification and Validation (V&V) best practices in terms of process, artifacts, and quality performance indicators. We present a Quality Measurement Management Tool (QMT) in order to support quality activities and process. This tool is based on a measurement meta-model repository for collecting, storing, analyzing and reporting measurement data. It is important to note that the proposed QMT supports the IEEE Standard 1012 for Software Verification and Validation (management, acquisition, supply, development, operation, and maintenance), as well as measurement information needs to Capability Maturity Model Integration (CMMI) processes and products requirements. Our repository is generic, flexible, and integrated, supporting a dynamic measurement system. It was originally designed to support Ericsson Research Canada’s business information needs.
We aim to improve quality in software engineering projects by introducing Verification and Validation (V&V) best practices in terms of process, artifacts, and quality performance indicators. We present a Quality Measurement Management Tool (QMT) in order to support quality activities and process. This tool is based on a measurement meta-model repository for collecting, storing, analyzing and reporting measurement data. It is important to note that the proposed QMT supports the IEEE Standard 1012 for Software Verification and Validation (management, acquisition, supply, development, operation, and maintenance), as well as measurement information needs to Capability Maturity Model Integration (CMMI) processes and products requirements. Our repository is generic, flexible, and integrated, supporting a dynamic measurement system. It was originally designed to support Ericsson Research Canada's business information needs.
