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Generative programming (Computer science) --- Component software --- Software engineering --- Computer Science --- Engineering & Applied Sciences --- Computer science. --- Software engineering. --- Computer programming. --- Programming languages (Electronic computers). --- Management information systems. --- Computer Science. --- Software Engineering/Programming and Operating Systems. --- Software Engineering. --- Programming Techniques. --- Programming Languages, Compilers, Interpreters. --- Management of Computing and Information Systems. --- Computer programming --- Computer software --- Information Systems. --- Informatics --- Science --- Computer software engineering --- Engineering --- Computers --- Electronic computer programming --- Electronic data processing --- Electronic digital computers --- Programming (Electronic computers) --- Coding theory --- Computer-based information systems --- EIS (Information systems) --- Executive information systems --- MIS (Information systems) --- Sociotechnical systems --- Information resources management --- Management --- Computer languages --- Computer program languages --- Computer programming languages --- Machine language --- Languages, Artificial --- Programming --- Communication systems --- Generative programming (Computer science) - Congresses --- Component software - Congresses --- Software engineering - Congresses

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ThetopicofModel-BasedEngineeringofReal-TimeEmbeddedSystems brings together a challenging problem domain (real-time embedded systems) and a - lution domain (model-based engineering). It is also at the forefrontof integrated software and systems engineering, as software in this problem domain is an essential tool for system implementation and integration. Today, real-time - bedded software plays a crucial role in most advanced technical systems such as airplanes, mobile phones, and cars, and has become the main driver and - cilitator for innovation. Development, evolution, veri?cation, con?guration, and maintenance of embedded and distributed software nowadays are often serious challenges as drastic increases in complexity can be observed in practice. Model-based engineering in general, and model-based software development in particular, advocates the notion of using models throughout the development and life-cycle of an engineered system. Model-based software engineering re- forces this notion by promoting models not only as the tool of abstraction, but also as the tool for veri?cation, implementation, testing, and maintenance. The application of such model-based engineering techniques to embedded real-time systems appears to be a good candidate to tackle some of the problems arising in the problem domain.

Logic --- Computer. Automation --- embedded systems --- vormgeving --- informatica --- ontwerpen --- computerbesturingssystemen --- simulaties --- programmeren (informatica) --- programmeertalen --- software engineering