Embedded system design 2.0: rationale behind a textbook revision
WESE '11 Proceedings of the 6th Workshop on Embedded Systems Education
Dependable and Historic Computing
Robust reachability in timed automata: a game-based approach
ICALP'12 Proceedings of the 39th international colloquium conference on Automata, Languages, and Programming - Volume Part II
Synthesis of communication schedules for TTEthernet-based mixed-criticality systems
Proceedings of the eighth IEEE/ACM/IFIP international conference on Hardware/software codesign and system synthesis
Semantics-preserving implementation of multirate mixed-criticality synchronous programs
Proceedings of the 20th International Conference on Real-Time and Network Systems
Ubiquitous emotion-aware computing
Personal and Ubiquitous Computing
Relevance and perspectives of AAL in Brazil
Journal of Systems and Software
Real-time programming on accelerator many-core processors
Proceedings of the 2013 ACM SIGAda annual conference on High integrity language technology
A survey on standards for real-time distribution middleware
ACM Computing Surveys (CSUR)
ACM Transactions on Embedded Computing Systems (TECS)
Formal verification of service-oriented adaptive driver assistance systems
ACM SIGBED Review - Special Issue on the 5th Workshop on Adaptive and Reconfigurable Embedded Systems
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"This book is a comprehensive text for the design of safety critical, hard real-time embedded systems. It offers a splendid example for the balanced, integrated treatment of systems and software engineering, helping readers tackle the hardest problems of advanced real-time system design, such as determinism, compositionality, timing and fault management. This book is an essential reading for advanced undergraduates and graduate students in a wide range of disciplines impacted by embedded computing and software. Its conceptual clarity, the style of explanations and the examples make the abstract conceptsaccessible for a wide audience."Janos Sztipanovits, DirectorE. Bronson Ingram Distinguished Professor of EngineeringInstitute for Software Integrated SystemsVanderbilt UniversityReal-Time Systems focuses on hard real-time systems, which are computing systems that must meet their temporal specification in all anticipated load and fault scenarios. The book stresses the system aspects of distributed real-time applications, treating the issues of real-time, distribution and fault-tolerance from an integral point of view. A unique cross-fertilization of ideas and concepts between the academic and industrial worlds has led to the inclusion of many insightful examples from industry to explain the fundamental scientific concepts in a real-world setting. Compared to the first edition, new developments incomplexity management,energy and power management, dependability, security, andthe internet of things, are addressed. The book is written as a standard textbook for a high-level undergraduate or graduate course on real-time embedded systems or cyber-physical systems. Its practical approach to solving real-time problems, along with numerous summary exercises, makes it an excellent choice for researchers and practitioners alike.