TY  - BOOK
AU  - Obermaisser,Roman
TI  - Time-triggered communication
T2  - Embedded systems
SN  - 9781439846629 (ebook : PDF)
PY  - 2012///
CY  - Boca Raton
PB  - Taylor & Francis
KW  - Networks on a chip
KW  - Reliability
KW  - Fault tolerance (Engineering)
KW  - Telecommunication systems
KW  - Automatic timers
KW  - Electronic books
KW  - lcsh
N1  - "A CRC title."; Includes bibliographical references and index; 1. Introduction / R. Obermaisser -- 2. Basic concepts and principles of time-triggered communication / R. Obermaisser and H. Kopetz -- 3. Properties of time-triggered communication systems / R. Obermaisser and H. Kopetz -- 4. Core algorithms / M. Paulitsch ... [et al.] -- 5. Time-triggered protocol (TTP/C) / R. Obermaisser -- 6. FlexRay / C. El Salloum and K. Bilic -- 7. SAFEbus / M. Paulitsch and K. Driscoll -- 8. Time-triggered ethernet / W. Steiner ... [et al.] -- 9. TTCAN / R. Kammerer -- 10. LIN / W. Elmenreich -- 11. TTP/A / W. Elmenreich -- 12. BRAIN / M. Paulitsch, B. Hall and K.R. Driscoll -- 13. ASCB : Avionics Standard Communications Bus / M. Paulitsch -- 14. Industrial applications / M. Paulitsch ... [et al.] -- 15. Development tools / P. Pop ... [et al.]; Also available in print edition
N2  - "Addressing key concepts, properties, and algorithms, this book offers a conceptual foundation of time-triggered communication. Contributions from experts help readers understand the various time-triggered communication protocols, including their differences and commonalities. Communication protocols covered include TTP, FlexRay, TTEthemet, SAFEbus, TTCAN and LIN. Protocols range from low-cost time-triggered fieldbus networks to ultra-reliable time-triggered networks for safety-critical applications. The text also presents information about the use of FlexRay in cars, TTP in railway and avionic systems, and TTEthemet in aerospace applications"--; "Embedded computers are by far the most common type of computer in use today. Ninety-eight percent of all computing devices are embedded in different kinds of electronic equipment such as automotive, industrial automation, telecommunications, consumer electronics and health/medical systems. Due to the many different and, partially, contradicting requirements, there exists no single model for building embedded systems. Well-known tradeoffs are predictability versus flexibility or resource adequacy versus best-effort strategies. Therefore, the chosen system model depends strongly on the requirements of the application"--
UR  - http://marc.crcnetbase.com/isbn/9781439846629
ER  -