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Anpaßbare, explorierbare virtuelle Informationsräume zur Qualitätsbewertung großer Software-Systeme
(2001)
Metrics Based Refactoring
(2001)
CrocoCosmos
(2002)
In this paper a new approach for a metrics based software visualization is presented which supports an efficient and effective quality assessment of large object-oriented software systems. It is based on the combination of software metrics data with structure information to form a virtual information space. This information space is visualized using 3D graph structures that allow to represent in a uniform way many aspects and views on it. The layout approach for these graphs uses a generic similarity measure to calculate geometric distances between the graph nodes and a force-directed mapping into 3D space. A particular strength of the approach is that the resulting geometrical structures can be well interpreted with respect to the architecture and design quality of the analysed software. Such 3D visualizations have been used successfully in several case studies for the quality assessment of industrial C++/Java projects.
Empirical results from using custom-made software project control centers in industrial environments
(2008)
One means for institutionalizing project control, systematic quality assurance, and management support on the basis of measurement and explicit models is the establishment of so-called Software Project Control Centers. Nowadays many companies develop their own dashboards for project control or use off-the-shelf tools that provide a predefined functionality. It is not clear how to tailor an existing tool to the specific needs and goals. An engineering-like approach providing the methodological foundation is needed for systematically defining and applying project control mechanisms. "Soft-Pit" is a research project focusing on an improvement-oriented approach for setting up and applying project control mechanisms in a goal-oriented way and evaluating the practical benefits of such a control center. This article describes the results of industrial case studies conducted in the context of the project. Moreover, lessons learned are discussed, related work is described, and future work is presented.
UV-Crosslinkable itaconic copolymers are developed to provide new multifunctional materials for coatings which combine crosslinkable functionalities and the possibility to immobilize enzymes. The polymer-immobilized enzymes were used for water treatment to decompose persistent organic molecules. Introduction of suitable comonomers allows tailoring the mechanical and chemical properties for special applications. Copolymers containing MMA and itaconic anhydride were chosen because of the formation of long-term stable anhydride functionalities. These anhydride functionalities are employed to attach enzymes covalently. 4-Benzoylphenyl methacrylate is used as comonomer for UV-initiated crosslinking. Terpolymers are successfully obtained by radical copolymerization in solution. The copolymers are compared to poly(ethylene-alt-maleic anhydride) [P(EMA)] often used with respect to enzyme immobilization, activity and hydrolytic stability. The hydrolysis stability of the copolymers against water is studied by ATR-FTIR spectroscopy. Thin films are prepared on glass substrates in a layer-by-layer procedure by spin-coating. The layer formation is monitored by ATR-FTIR spectroscopy. UV-crosslinking of the copolymer films is performed taking the optimal irradiation dose that avoids polymer degradation. ATR-FTIR spectroscopy verifies the coupling reaction between amino groups of the enzyme and the anhydride groups on the surface of the crosslinked polymer film. The syringaldazine (4-hydroxy-3,5-dimethoxybenzaldehyde azine) test and 2,2´-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid) (ABTS) assay demonstrate that the immobilized enzymes maintain their activities. The functional copolymers showed a significant effect in reduction of persistent organic pollutants in contaminated waste water.
In this chapter we introduce the concept of structural quality assessments for industrial software systems (especially object-oriented code). Such a quality assessment can be used both to determine the current state with respect to quality and to plan further actions, i.e. reengineering steps, process adjustments or further education of engineers in an ongoing project. The assessment itself is based on an innovative software analysis workbench that integrates multiple interdependent views on a software system into a coherent analysis environment. These views provide information on four aspects: user-defined metrics and query results with high-level information about the system, detailed cross-reference information, browsing views and diagrams to support efficient understanding of the structure. The workbench applies powerful static analysis techniques on the source code under consideration and uses it to generate, access, visualise and browse the different views and analysis results. For practical assessments the workbench is used in a well-defined process such that a first quality assessment of large systems can be done within a very short period of time.
The quality assessment described here has been applied in various projects. In order to illustrate the results that such an assessment gives for project management, developers or managers of an outsourced project this paper ends with a short description of a typical example project. This is one of the projects supported jointly by SQS and the Software Systems Engineering Research Group Cottbus