This paper presents a new approach to the development of health management solutions which can be applied to both new and legacy platforms during the conceptual design phase. The approach involves the qualitative functional modelling of a system in order to perform an Integrated Vehicle Health Management (IVHM) design – the placement of sensors and the diagnostic rules to be used in interrogating their output. The qualitative functional analysis was chosen as a route for early assessment of failures in complex systems. Functional models of system components are required for capturing the available system knowledge used during various stages of system and IVHM design. MADe™ (Maintenance Aware Design environment), a COTS software tool develop...
Turbine engine failures are the leading cause of class-A mechanical failures (loss of aircraft). The...
This paper explores how the safety engineering practices applied to the aircraft design can be effec...
This paper proposes a reasoning framework to diagnose faults at the vehicle level in a complex machi...
This paper describes an end-to-end Integrated Vehicle Health Management (IVHM) development process w...
This paper presents the first of two case studies conducted in 2009, to evaluate a concept for speci...
Electrically propelled vehicles are growing trend, offering an answer to environmental requirements ...
Abstract—In this paper, we describe a simulation based health monitoring system test-bed for aircraf...
This paper explains the On-board IVHM system for a State-Of-the-Art “All electric aircraft” and expl...
The ASTRAEA project is a £32M UK initiative to develop the safety case for unmanned aerial vehicles ...
The work presented in this paper summarizes an effort to advance the current state of vehicle health...
This paper builds on the ability to produce a com-prehensive automated Failure Modes and Effects Ana...
A framework for integrated diagnostic reasoning to detect and isolate faults in complex aircraft sys...
AbstractThe paper discusses the importance of granularity in maintenance requirements. This becomes ...
Aircraft systems are designed to perform functions that will aid the various missions of the aircraf...
The need for Unmanned Aerial Vehicles (UAVs) is increasing as they are being used across the world f...
Turbine engine failures are the leading cause of class-A mechanical failures (loss of aircraft). The...
This paper explores how the safety engineering practices applied to the aircraft design can be effec...
This paper proposes a reasoning framework to diagnose faults at the vehicle level in a complex machi...
This paper describes an end-to-end Integrated Vehicle Health Management (IVHM) development process w...
This paper presents the first of two case studies conducted in 2009, to evaluate a concept for speci...
Electrically propelled vehicles are growing trend, offering an answer to environmental requirements ...
Abstract—In this paper, we describe a simulation based health monitoring system test-bed for aircraf...
This paper explains the On-board IVHM system for a State-Of-the-Art “All electric aircraft” and expl...
The ASTRAEA project is a £32M UK initiative to develop the safety case for unmanned aerial vehicles ...
The work presented in this paper summarizes an effort to advance the current state of vehicle health...
This paper builds on the ability to produce a com-prehensive automated Failure Modes and Effects Ana...
A framework for integrated diagnostic reasoning to detect and isolate faults in complex aircraft sys...
AbstractThe paper discusses the importance of granularity in maintenance requirements. This becomes ...
Aircraft systems are designed to perform functions that will aid the various missions of the aircraf...
The need for Unmanned Aerial Vehicles (UAVs) is increasing as they are being used across the world f...
Turbine engine failures are the leading cause of class-A mechanical failures (loss of aircraft). The...
This paper explores how the safety engineering practices applied to the aircraft design can be effec...
This paper proposes a reasoning framework to diagnose faults at the vehicle level in a complex machi...