Sonderforschungsbereich 501
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Faculty / Organisational entity
1997,3
1997,4
A large set of criteria to evaluate formal methods for reactive systems is presented. To make this set more comprehensible, it is structured according to a Concept-Model of formal methods. It is made clear that it is necessary to make the catalogue more specific before applying it. Some of the steps needed to do so are explained. As an example the catalogue is applied within the context of the application domain building automation systems to three different formal methods: SDL, statecharts, and a temporallogic.
1996,18
A new approach for modelling time that does not rely on the concept of a clock is proposed. In order to establish a notion of time, system behaviour is represented as a joint progression of multiple threads of control, which satisfies a certain set of axioms. We show that the clock-independent time model is related to the well-known concept of a global clock and argue that both approaches establish the same notion of time.
1996,16
A Tailored Real Time Temporal Logic for Specifying Requirements of Building Automation Systems
(1999)
A tailored real time temporal logic for specifying requirements of building automation systems is introduced and analyzed. The logic features several new real time operators, which are chosen with regard to the application area. The new operators improve the conciseness and readability of requirements as compared to a general-purpose real time temporal logic. In addition, some of the operators also enhance the expressiveness of the logic. A number of properties of the new operators are presented and proven.
1996,17
Today's communication systems are typically structured into several layers, where each layer realizes a fixed set of protocol functionalities. These functionalities have been carefully chosen such that a wide range of applications can be supported and protocols work in a general environment of networks. However, due to evolving network technologies as well as increased and varying demands of modern applications general-purpose protocol stacks are not always adequate. To improve this situation new flexible communication architectures have been developed which enable the configuration of customized communication subsystems by composing a proper set of reusable building blocks. In particular, several approaches to automatic configuration of communication subsystems have been reported in the literature. This report gives an overview of theses approaches (F-CCS, Da CaPo, x-Kernel, and ADAPTIVE) and, in particular, defines a framework, which identifies common architectural issues and configuration tasks.
1996,5
A combination of a state-based formalism and a temporal logic is proposed to get an expressive language for various descriptions of reactive systems. Thereby it is possible to use a model as well as a property oriented specification style in one description. The descriptions considered here are those of the environment, the specification, and the design of a reactive system. It is possible to express e.g. the requirements of a reactive system by states and transitions between them together with further temporal formulas restricting the behaviors of the statecharts. It is shown, how this combined formalism can be used: The specification of a small example is given and a designed controller is proven correct with respect to this specification. The combination of the langugages is based on giving a temporal semantics of a state-based formalism (statecharts) using a temporal logic (TLA).
1998,3
Die systematische Verbesserung von Techniken zur Entwicklung und Betreuung von Software setzt eine explizite Darstellung der in einem Projekt ablaufenden Vorgnge (Prozesse) voraus. Diese Darstellungen (Prozemodelle) werden durch Software- Prozemodellierung gewonnen. Eine Sprache zur Beschreibung solcher Modelle ist MVP-L. Verschiedene Standard-Prozemodelle existieren bereits. Bisher gibt es jedoch kaum dokumentierte Software-Entwicklungsprozesse, die speziell fr die Entwicklung reaktiver Systeme entworfen worden sind, d. h. auf die besonderen Anfordernisse bei der Entwicklung reaktiver Systeme zugeschnitten sind. Auch ist bisher nur wenig Erfahrung dokumentiert, fr welche Art von Projektkontexten diese Prozesse gltig sind. Eine Software- Entwicklungsmethode, die - mit Einschrnkungen - zur Entwicklung reaktiver Systeme geeignet ist, ist SOMT (SDL-oriented Object Modeling Technique). Dieser Bericht beschreibt die erfahrungsbasierte Modellierung der Software-Entwicklungsprozesse von SOMT mit MVP-L. Zunchst werden inhaltliche Grundlagen der Software-Entwicklungsmethode SOMT beschrieben. Insbesondere wird auf die eingesetzten Techniken und deren Kombination eingegangen. Anschlieend werden mgliche Projektkontexte charakterisiert, in denen das SOMT-Modell im Sinne eines Erfahrungselements Gltigkeit hat. Darauf werden der Modellierungsvorgang sowie hierbei gemachte Erfahrungen dokumentiert. Eine vollstndige Darstellung des Modells in grafischer MVP-L-Notation befindet sich im Anhang. Die Darstellung des Modells in textueller Notation kann der SFB-Erfahrungsdatenbank entnommen werden.
1996,6
Representations of activities dealing with the development or maintenance of software are called software process models. Process models allow for communication, reasoning, guidance, improvement, and automation. Two approaches for building, instantiating, and managing processes, namely CoMo-Kit and MVP-E, are combined to build a more powerful one. CoMo-Kit is based on AI/KE technology; it was developed for supporting complex design processes and is not specialized to software development processes. MVP-E is a process-sensitive software engineering environment for modeling and analyzing software development processes, and guides software developers. Additionally, it provides services to establish and run measurement programmes in software organizations. Because both approaches were developed completely independently major integration efforts are to be made to combine their both advantages. This paper concentrates on the resulting language concepts and their operationalization necessary for building automated process support.
1997,1
A generic approach to the formal specification of system requirements is presented. It is based on a pool of requirement patterns, which are related to design patterns well-known in object-oriented software development. The application of such patterns enhances the reusability and genericity as well as the intelligibility of the formal requirement specification. The approach is instantiated by a tailored real-time temporal logic and by selecting building automation systems as application domain. With respect to this domain, the pattern discovery and reuse tasks are explained and illustrated, and a set of typical requirement patterns is presented. Finally, the results of a case study where the approach has been applied are summarized.