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Duration Calculus
A Formal Approach to Real-Time Systems, Monographs in Theoretical Computer Science. An EATCS Series
ISBN/EAN: 9783642074042
Umbreit-Nr.: 1529484
Sprache:
Englisch
Umfang: x, 250 S., 20 s/w Illustr.
Format in cm:
Einband:
kartoniertes Buch
Erschienen am 09.12.2010
Auflage: 1/2004
- Zusatztext
- Inhaltsangabe1. Introduction.- 2. Interval Logic.- 3. Duration Calculus.- 4. Deadline-Driven Scheduler.- 5. Relative Completeness.- 6. Decidability.- 7. Undecidability.- 8. Model Checking: Linear Duration Invariants.- 9. State Transitions and Events.- 10. Superdense State Transitions.- 11. Neighborhood Logic.- 12. Probabilistic Duration Calculus.- References.- Abbreviations.- Symbol Index.
- Kurztext
- Real-time systems are systems in which temporal properties are essential for reliability and correctness. Examples of systems where correctness and reliability are important for safety reasons include control systems for cars, trains and air planes. In devices such as washing machines, DVD players and mobile phones the correctness and reliability of the embedded real-time computing systems are important for economical reasons as it is expensive to repair errors after the production phase. Duration Calculus is an interval logic having special features for expressing and analysing time durations of states in real-time systems. Duration Calculus represents a formal approach to the development of real-time systems, where requirements and designs can be expressed and reasoned about at an appropriate level of abstraction. This book presents the logical foundations of Duration Calculus in a coherent and thorough manner and through selective case studies it expains how Durations Calculus can be applied to formal specification and verification of real-time systems. The book also contains an extensive survey of the research on Duration Calculus. Material included in the book has been used for M.Sc. and Ph.D. courses, but the book is also valuable for experienced researchers and professionals.
- Autorenportrait
- Professor ZHOU Chaochen, Institute of Software, Chinese Academy of Sciences. Members of Chinese Academy of Sciences and the Third World Academy of Sciences. Former Director of International Institute for Software Technology, United Nations University. He has had about 30 years research experience in the area of formal techniques for computing systems, in particular for distributed and real-time systems.Associate Prof. Michael R. Hansen. Informatics and Mathematical Modelling, Technical University of Denmark Research interests: Formal Methods, Computer Based Systems, Real-time systems, Hybrid systems, Duration Calculus.