Title :
A fault-tolerant architecture for launch vehicle guidance and control. I. Requirement/architecture
Author :
Fernandez, Manny ; Tazartes, Daniel A.
Author_Institution :
Litton Syst. Inc., Woodland Hills, CA, USA
Abstract :
A low-cost, highly reliable guidance and control system for launch vehicles requires fault tolerance if the launch failures are to be amortized in the launch costs. A flexible architecture that meets requirements for low-cost and high reliability is presented. It provides design workarounds to optimize the system to meet its mission requirements. It is noted that if a viable launch vehicle guidance and control system is to be available it is necessary to deviate from current approaches that have basic deficiencies in their ability to significantly reduce cost and increase reliability. The requirements and architecture presented have been developed with reference to the advanced launch system program
Keywords :
aerospace computer control; computer architecture; control system CAD; economics; fault tolerant computing; reliability; CAD; advanced launch system; aerospace control; cost; fault-tolerant architecture; flexible architecture; launch costs; launch vehicle guidance; mission requirements; optimisation; reliability; Control systems; Costs; Fault tolerance; Fault tolerant systems; Low earth orbit satellites; NASA; Navigation; Payloads; Space technology; Vehicle safety;
Conference_Titel :
Digital Avionics Systems Conference, 1990. Proceedings., IEEE/AIAA/NASA 9th
Conference_Location :
Virginia Beach, VA
DOI :
10.1109/DASC.1990.111310
