System Integration of a Degraded Vision Landing Aid Application on a Custom High-Criticality Research Platform 2012-01-2117
The progress of silicon integration has led to the ability to integrate complex systems on a single die. Integration of applications and different application software components on a distributed system-on-chip can be demanding unless one follows a structural system integration approach with architectural support from hardware. The ACROSS Multi-Processor System-on-Chip platform provides architectural means for integration, such as well-defined communication interfaces, deterministic communication schedules, fault-containment and error-confinement support. We present the non-functional requirements of a degraded vision landing system for a helicopter and show how the ACROSS Multi-Processor System-on-Chip research platform alleviates integration of software and system components.
Citation: Paulitsch, M., Geiger, D., Koppenhoefer, B., and Ganal, P., "System Integration of a Degraded Vision Landing Aid Application on a Custom High-Criticality Research Platform," SAE Int. J. Aerosp. 5(1):157-163, 2012, https://doi.org/10.4271/2012-01-2117. Download Citation
Michael Paulitsch, Dietmar Geiger, Bernd Koppenhoefer, Peter Ganal
EADS Innovation Works, EADS Cassidian
SAE 2012 Aerospace Electronics and Avionics Systems Conference
SAE International Journal of Aerospace-V121-1EJ, SAE International Journal of Aerospace-V121-1