The state of the art in advanced condition monitoring of aerospace systems continues to make significant strides, fueled by revolutionary new technologies in micro-sensing, optical methods, as well as software driven diagnostic techniques. Demand for better health monitoring solutions also continuous to grow, along with the increasing complexity of systems. The life cycle cost of these solutions must be considered carefully to provide an optimal design. The challenge to the system designer is to understand the requirements of the system and the associated risks, in order to properly match the monitoring solutions to the mission-driven need.This paper focuses on a methodology for thorough risk assessment of the target system, derived from top-level requirements, as the rational basis for selection and design of condition monitoring subsystems. The payoffs include an effective monitoring subsystem design and a proper trade-off between life-cycle cost and risk.
Risk-Based Requirements Analysis: A Holistic Approach to Aerospace System Condition Monitoring
Sae Technical Papers
Aerospace Atlantic Conference & Exposition ; 1993
1993-04-01
Conference paper
English
A knowledge driven approach to aerospace condition monitoring
Tema Archive | 2011
|Probabilistic approach to the condition monitoring of aerospace engines
Online Contents | 2009
|Probabilistic approach to the condition monitoring of aerospace engines
SAGE Publications | 2009
|A holistic approach to manufacturing system design in the defense aerospace industry
DSpace@MIT | 2002
|