Title :
A self-consistent method for the management of FMECA. Application to space telecommunication and observation systems
Author :
Le Mene, Christian ; Robichez, Sabine
Author_Institution :
Alcatel Espace, Toulouse, France
Abstract :
ALCATEL ESPACE is the European leader in the design and integration of satellite flight payloads and in the manufacturing of space electronics and antennae. These equipments represent a high level of complexity, cannot be repaired, and must satisfy requirements for long life (over ten years). For each project, the FMECA is an analysis performed for each equipment, subsystem, and system of the satellite. The FMECAs are updated by keeping an ascending coherence until the configuration of every level is finalized. Faced with the ever-increasing complexity of on-board satellite electronic systems, it has become necessary to use software in the production of FMECA. The paper considers how ALCATEL ESPACE decided to develop its own software tool to perform analyses at both equipment and subsystem levels
Keywords :
aerospace computing; aerospace simulation; automatic test equipment; electronic equipment testing; reliability; satellite antennas; satellite relay systems; ALCATEL ESPACE; FMECA; antennae; manufacturing; on-board satellite electronic systems; satellite flight payloads; self-consistent method; software tool; space electronics; space observation systems; space telecommunication; Data processing; Design engineering; Electronic equipment manufacture; Failure analysis; Information analysis; Performance analysis; Reliability engineering; Satellites; Software tools; Space technology;
Conference_Titel :
Reliability and Maintainability Computer-Aided Engineering in Concurrent Engineering, 1990 and 1991., Combined Proceedings of the 1990 and 1991 Leesburg Workshops on
Conference_Location :
Leesburg, VA ; Ellicott City, MD
DOI :
10.1109/RMCAE.1992.245512
