Nowadays space activities are characterized by increased constraints in terms of on-board computing power and functional complexity combined with reduction of costs and schedule. This scenario necessarily originates impacts on the on-board software with particular emphases to the interfaces between on-board software and system/mission level requirements. The questions are: How can the effectiveness of Space System Software design be improved? How can we increase sophistication in the area of autonomy and failure tolerance, maintaining the necessary quality with acceptable risks?.

SMART-FDIR: Use of Artificial Intelligence in the implementation of a Satellite FDIR

LAVAGNA, MICHÈLE
2003-01-01

Abstract

Nowadays space activities are characterized by increased constraints in terms of on-board computing power and functional complexity combined with reduction of costs and schedule. This scenario necessarily originates impacts on the on-board software with particular emphases to the interfaces between on-board software and system/mission level requirements. The questions are: How can the effectiveness of Space System Software design be improved? How can we increase sophistication in the area of autonomy and failure tolerance, maintaining the necessary quality with acceptable risks?.
2003
Proceedings of DASIA 2003
Artificial Intelligence; Autonomy; On-Board FDIR
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/683859
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