Formal Modeling and Analysis of Advanced Scheduling Features in an Avionics RTOS
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Publisher
Springer Berlin Heidelberg
Link
http://link.springer.com/content/pdf/10.1007/3-540-45828-X_11
Reference11 articles.
1. Design Description Document for the Digital Engine Operating System. Honeywell specification no. PS7022409.
2. Binns, Pam: A robust high-performance time partitioning algorithm: the Digital Engine Operating System (Deos) approach. 20th Digital Avionics System Conference (2001)
3. Binns, Pam: Incremental rate monotonic scheduling for improved control system performance. IEEE Real-Time Applications Symposium (1997)
4. Binns, Pam: Scheduling slack in MetaH. IEEE Real-Time Systems Symposium work-in-progress session (1996)
5. Holzmann, G: The model checker Spin. IEEE Transactions on Software Engineering 23 (1997) 279–295
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