Reinhold Plösch scite author profile

Abstract-Published software quality models either provide abstract quality attributes or concrete quality assessments. There are no models that seamlessly integrate both aspects. In the project Quamoco, we built a comprehensive approach with the aim to close this gap.For this, we developed in several iterations a meta quality model specifying general concepts, a quality base model covering the most important quality factors and a quality assessment approach. The meta model introduces the new concept of a product factor, which bridges the gap between concrete measurements and abstract quality aspects. Product factors have measures and instruments to operationalise quality by measurements from manual inspection and tool analysis. The base model uses the ISO 25010 quality attributes, which we refine by 200 factors and 600 measures for Java and C# systems.We found in several empirical validations that the assessment results fit to the expectations of experts for the corresponding systems. The empirical analyses also showed that several of the correlations are statistically significant and that the maintainability part of the base model has the highest correlation, which fits to the fact that this part is the most comprehensive. Although we still see room for extending and improving the base model, it shows a high correspondence with expert opinions and hence is able to form the basis for repeatable and understandable quality assessments in practice.

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Operationalised product quality models and assessment: The Quamoco approach

Wagner

Goeb²,

Heinemann³

et al. 2015

Information and Software Technology

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Context Software quality models provide either abstract quality characteristics or concrete quality measurements; there is no seamless integration of these two aspects. Quality assessment approaches are, hence, also very specific or remain abstract. Reasons for this include the complexity of quality and the various quality profiles in different domains which make it difficult to build operationalised quality models. Objective In the project Quamoco, we developed a comprehensive approach aimed at closing this gap. Method The project combined constructive research, which involved a broad range of quality experts from academia and industry in workshops, sprint work and reviews, with empirical studies. All deliverables within the project were peer-reviewed by two project members from a different area. Most deliverables were developed in two or three iterations and underwent an evaluation. Results We contribute a comprehensive quality modelling and assessment approach: (1) A meta quality model defines the structure of operationalised quality models. It includes the concept of a product factor, which bridges the gap between concrete measurements and abstract quality aspects, and allows modularisation to create modules for specific domains. (2) A largely technology-independent base quality model reduces the effort and complexity of building quality models for specific domains. For Java and C# systems, we refined it with about 300 concrete product factors and 500 measures. (3) A concrete and comprehensive quality assessment approach makes use of the concepts in the meta-model. (4) An empirical evaluation of the above results using real-world software systems showed: (a) The assessment results using the base model largely match the expectations of experts for the corresponding systems. (b) The approach and models are well understood by practitioners and considered to be both consistent and well suited for getting an overall view on the quality of a software product. The validity of the base quality model could not be shown conclusively, however. (5) The extensive, open-source tool support is in a mature state. (6) The model for embedded software systems is a proof-of-concept for domain-specific quality models. Conclusion We provide a broad basis for the development and application of quality models in industrial practice as well as a basis for further extension, validation and comparison with other approaches in research

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Design by contract for Python

Plösch

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The Value of Software Documentation Quality

Plösch

Dautovic

Saft

2014

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This paper presents the results of a study on software documentation quality in practice. Goal of this study is identifying the current state of software documentation quality and used analysis techniques for determining software documentation quality. Moreover, we aim at finding out, whether there is a demand for a tool-based software documentation quality analysis approach. This approach consists of a documentation quality model and a document checking tool, as proposed in previous work. We developed an online survey and asked about 300 experts to answer it. The survey was completed by 88 experts and the overall results confirm the importance of software documentation quality as well as the need for better tool support. The survey shows that the most important quality attributes with regard to documentation quality are accuracy, clarity, consistency, readability, structuredness, and understandability. Most of these quality attributes are currently covered by our software documentation quality analysis approach; some of them (e.g., accuracy, structuredness) still need more attention, i.e. better support in our quality model and tool. Keywords-software documentation quality, role of quality in documentation, automatic evaluation of documentation qualityI.

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On the Relation between External Software Quality and Static Code Analysis

Plösch

Gruber

Hentschel

et al. 2008

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Only a few studies exist that try to investigate whether there is a significant correlation between external software quality and the data provided by static code analysis tools. A clarification on this issue could pave the way for more precise prediction models on the probability of defects based on the violation of programming rules. We therefore initiated a study where the defect data of selected versions of the open source development environment "Eclipse SDK" is correlated with the data provided by the static code analysis tools PMD and FindBugs applied the source code of Eclipse. The results from this study are promising as especially some PMD rulesets show a good correlation with the defect data and could therefore serve as basis for measurement, control and prediction of software quality.

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