Formal Methods for Embedded Distributed Systems
How to master the complexity
(Sprache: Englisch)
The development of any Software (Industrial) Intensive System, e.g. critical embedded software, requires both different notations, and a strong development process. Different notations are mandatory because different aspects of the Software System have to...
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The development of any Software (Industrial) Intensive System, e.g. critical embedded software, requires both different notations, and a strong development process. Different notations are mandatory because different aspects of the Software System have to be tackled. A strong development process is mandatory as well because without a strong organization we cannot warrantee the system will meet its requirements. Unfortunately, much more is needed!
Formal Methods for Embedded Distributed Systems is dedicated to the presentation of some techniques to be used in the context of distributed and/or embedded systems. Since formal techniques rely on models, i.e. different descriptions of the system to be designed, the presented techniques are located in the first part of software development.
Formal Methods for Embedded Distributed Systems makes many connections between "traditional development approaches" and the latest developments in formal techniques that are known as the best solution to significantly increase the reliability of such systems. The target audience is mainly composed of professionals (engineers, researchers and teachers), and students (graduated and postgraduated) who want to have a clear understanding of how to manage the inherent complexity of critical and/or distributed systems.
Formal Methods for Embedded Distributed Systems is dedicated to the presentation of some techniques to be used in the context of distributed and/or embedded systems. Since formal techniques rely on models, i.e. different descriptions of the system to be designed, the presented techniques are located in the first part of software development.
Formal Methods for Embedded Distributed Systems makes many connections between "traditional development approaches" and the latest developments in formal techniques that are known as the best solution to significantly increase the reliability of such systems. The target audience is mainly composed of professionals (engineers, researchers and teachers), and students (graduated and postgraduated) who want to have a clear understanding of how to manage the inherent complexity of critical and/or distributed systems.
Klappentext zu „Formal Methods for Embedded Distributed Systems “
The development of any Software (Industrial) Intensive System, e.g. critical embedded software, requires both different notations, and a strong devel- ment process. Different notations are mandatory because different aspects of the Software System have to be tackled. A strong development process is mandatory as well because without a strong organization we cannot warrantee the system will meet its requirements. Unfortunately, much more is needed! The different notations that can be used must all possess at least one property: formality. The development process must also have important properties: a exha- tive coverage of the development phases, and a set of well integrated support tools. In Computer Science it is now widely accepted that only formal notations can guarantee a perfect de?ned meaning. This becomes a more and more important issue since software systems tend to be distributed in large systems (for instance in safe public transportation systems), and in small ones (for instance numerous processors in luxury cars). Distribution increases the complexity of embedded software while safety criteria get harder to be met. On the other hand, during the past decade Software Engineering techniques have been improved a lot, and are now currently used to conduct systematic and rigorous development of large software systems. UML has become the de facto standard notation for documenting Software Engineering projects. UML is supported by many CASE tools that offer graphical means for the UML notation.
Inhaltsverzeichnis zu „Formal Methods for Embedded Distributed Systems “
The BART Case Study.- Formal Specifcation and Refinement of a Safe Train Control Function.- From UML to Z.- Environmental Modeling with UML.- Checking BART Test Scenarios with UML's Object Constraint Language.- Modeling and verifying behavioral aspects.- Mastering the Complexity of Reactive Systems - The AutoFocusApproach.- Conclusions.
Bibliographische Angaben
- 2010, XX, 263 Seiten, Masse: 16 x 23,9 cm, Kartoniert (TB), Englisch
- Herausgegeben: Fabrice Kordon, Michel Lemoine
- Verlag: Springer, Berlin
- ISBN-10: 1441954597
- ISBN-13: 9781441954596
Sprache:
Englisch
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