“Non-intrusive Observation and Runtime Verification of Avionic Systems”

From Navigators

(Difference between revisions)
Jump to: navigation, search
Line 12: Line 12:
|journal=Ada User Journal
|journal=Ada User Journal
|address=Lisboa, Portugal
|address=Lisboa, Portugal
-
|booktitle=also as Proceedings of the RUME 2018 - Runtime Verification and Monitoring Technologies for Embedded Systems Workshop
 
}}
}}
-
also as Proceedings of the RUME 2018 - Runtime Verification and Monitoring Technologies for Embedded Systems Workshop
+
Also as Proceedings of the RUME 2018 - Runtime Verification and Monitoring Technologies for Embedded Systems Workshop.

Revision as of 13:34, 6 June 2018

José Rufino

Ada User Journal, Jun. 2018.

Abstract: Unmanned autonomous systems (UAS) avionics call for advanced computing system architectures fulfilling strict size, weight and power consumption (SWaP) requisites. The AIR (ARINC 653 in Space Real-Time Operating System) defines a partitioned environment for the development and execution of aerospace applications, preserving application timing and safety requisites. This paper intensively explores the potential of non-intrusive runtime verification (NIRV) mechanisms, currently being included in AIR, to the overall improvement of system safety.


Export citation

BibTeX

Project(s): Project:NORTH, Project:COST Action IC1402

Research line(s): Timeliness and Adaptation in Dependable Systems (TADS)

Also as Proceedings of the RUME 2018 - Runtime Verification and Monitoring Technologies for Embedded Systems Workshop.

Personal tools
Navigators toolbox