Real Time Operating Systems

Embedded Systems: Real-Time Operating Systems for ARM Cortex-M Microcontrollers  eBooks & eLearning

Posted by AlenMiler at Jan. 9, 2017
Embedded Systems: Real-Time Operating Systems for ARM Cortex-M Microcontrollers

Embedded Systems: Real-Time Operating Systems for Arm Cortex M Microcontrollers: Volume 3 by Jonathan Valvano
English | 3 Jan. 2012 | ISBN: 1466468866 | 486 Pages | AZW3/MOBI/EPUB/PDF (conv) | 32.74 MB

This book is self-published and is printed on demand. The original ISBN was generated in 2012, but if you purchase the book new from CreateSpace or Amazon you will get the new version, which was uploaded January 3, 2017.

Real-Time Embedded Systems: Open-Source Operating Systems Perspective  eBooks & eLearning

Posted by roxul at Aug. 4, 2014
Real-Time Embedded Systems: Open-Source Operating Systems Perspective

Ivan Cibrario Bertolotti, Gabriele Manduchi, "Real-Time Embedded Systems: Open-Source Operating Systems Perspective"
English | ISBN: 1439841543 | 2012 | 536 pages | PDF | 6 MB

Real-Time Embedded Systems [Repost]  eBooks & eLearning

Posted by tanas.olesya at Dec. 23, 2016
Real-Time Embedded Systems [Repost]

Real-Time Embedded Systems: Open-Source Operating Systems Perspective by Ivan Cibrario Bertolotti
English | 1 Feb. 2012 | ISBN: 1439841543 | 522 Pages | PDF | 6 MB

Real-time embedded systems are integral to the global technological and social space, but references still rarely offer professionals the sufficient mix of theory and practical examples required to meet intensive economic, safety, and other demands on system development.
The Inverse Method: Parametric Verification of Real-time Unbedded Systems (Repost)

Etienne André and Romain Soulat, "The Inverse Method: Parametric Verification of Real-time Unbedded Systems"
English | ISBN: 1848214472 | 2013 | PDF | 161 pages | 4,8 MB

Real-Time Embedded Systems: Optimization, Synthesis, and Networking (Repost)  eBooks & eLearning

Posted by roxul at Sept. 12, 2016
Real-Time Embedded Systems: Optimization, Synthesis, and Networking (Repost)

Meikang Qiu, Jiayin Li, "Real-Time Embedded Systems: Optimization, Synthesis, and Networking"
English | 2011 | 231 Pages | ISBN: 143981760X | PDF | 2 MB
14th IEEE International Conference on Embedded and Real-time Computing Systems and Applications

14th IEEE International Conference on Embedded and Real-time Computing Systems and Applications (Rtcsa 2008) by Institute of Electrical and Electronics Engineers
English | Dec. 10, 2008 | ISBN: 0769533493 | 451 Pages | PDF | 21 MB

RTCSA will bring together researchers and developers from academia and industry for advancing the technology of embedded and real-time systems, and their emerging applications.
Control and Scheduling Codesign: Flexible Resource Management in Real-Time Control Systems (repost)

Control and Scheduling Codesign: Flexible Resource Management in Real-Time Control Systems by Feng Xia and You-xian Sun
English | 2008-08-07 | ISBN: 3540782540, 3642096891 | PDF | 246 pages | 14,4 MB

Real-Time Database Systems: Architecture and Techniques [Repost]  eBooks & eLearning

Posted by ChrisRedfield at Nov. 27, 2015
Real-Time Database Systems: Architecture and Techniques [Repost]

Kam-Yiu Lam, Tei-Wei Kuo - Real-Time Database Systems: Architecture and Techniques
Published: 2000-11-30 | ISBN: 0792372182 | PDF | 289 pages | 1.47 MB
Control and Scheduling Codesign: Flexible Resource Management in Real-Time Control Systems (repost)

Control and Scheduling Codesign: Flexible Resource Management in Real-Time Control Systems by Feng Xia and You-xian Sun
English | 2008-08-07 | ISBN: 3540782540, 3642096891 | PDF | 246 pages | 14,4 MB

A Generic Fault-Tolerant Architecture for Real-Time Dependable Systems (repost)  eBooks & eLearning

Posted by MoneyRich at June 22, 2015
A Generic Fault-Tolerant Architecture for Real-Time Dependable Systems (repost)

A Generic Fault-Tolerant Architecture for Real-Time Dependable Systems by David Powell
English | Dec 3, 2010 | ISBN: 1441948805 | 242 Pages | PDF | 8 MB

The design of computer systems to be embedded in critical real-time applications is a complex task. Such systems must not only guarantee to meet hard real-time deadlines imposed by their physical environment, they must guarantee to do so dependably, despite both physical faults (in hardware) and design faults (in hardware or software). A fault-tolerance approach is mandatory for these guarantees to be commensurate with the safety and reliability requirements of many life- and mission-critical applications.