Significant enhancements in the reliability and readiness of high-value assets are believed to be achievable by developing and implementing prognosis systems. This real time, or near-real time, decision making process is based on the acquisition and fusion of on-line sensor feedback, combined with physics-based analytical models for damage accumulation, and higher order reasoning for decision making. Since many elements of this process contain uncertainty it is necessary to treat this process probabilistically. The influence of two key sensor inputs on the probability of component failure is examined – uncertainty in mission usage, and uncertainty in the current material damage state. Example analyses for the case of fatigue cracking at a b...
This report describes a formal method to quantify structural damage tolerance and reliability in the...
Amethodology is developed and applied that determines the sensitivities of the probability-of-fractu...
This paper describes the development and testing of a new algorithm to identify faulty sensors, base...
It is generally known that an engine component will accumulate damage (life usage) during its lifeti...
Prognostics and health monitoring (PHM) technology needs to be developed to meet the challenges pose...
The reliability of modern gas turbine engines is largely due to careful damage tolerant design a met...
Turbine engine disk life prediction and understanding the associated risk remains a significant chal...
In probabilistic design of materials for fracture-critical components in modern military turbine eng...
Maintaining the component service life beyond its historical limits requires the ability to accurate...
In safety-critical systems such as industrial plants or aircraft, failure occurs inevitably during o...
The objective of this program is to develop sensors that allow condition based monitoring of critica...
This paper describes the results of a case study on the use of physics based prognosis to deal with ...
Turbine engine failures are the leading cause of class-A mechanical failures (loss of aircraft). The...
Advanced vibration analysis technologies that provide incipient fault detection to enable longer tim...
The life prediction of critical gas turbine engine components is carried out using a bank of laborat...
This report describes a formal method to quantify structural damage tolerance and reliability in the...
Amethodology is developed and applied that determines the sensitivities of the probability-of-fractu...
This paper describes the development and testing of a new algorithm to identify faulty sensors, base...
It is generally known that an engine component will accumulate damage (life usage) during its lifeti...
Prognostics and health monitoring (PHM) technology needs to be developed to meet the challenges pose...
The reliability of modern gas turbine engines is largely due to careful damage tolerant design a met...
Turbine engine disk life prediction and understanding the associated risk remains a significant chal...
In probabilistic design of materials for fracture-critical components in modern military turbine eng...
Maintaining the component service life beyond its historical limits requires the ability to accurate...
In safety-critical systems such as industrial plants or aircraft, failure occurs inevitably during o...
The objective of this program is to develop sensors that allow condition based monitoring of critica...
This paper describes the results of a case study on the use of physics based prognosis to deal with ...
Turbine engine failures are the leading cause of class-A mechanical failures (loss of aircraft). The...
Advanced vibration analysis technologies that provide incipient fault detection to enable longer tim...
The life prediction of critical gas turbine engine components is carried out using a bank of laborat...
This report describes a formal method to quantify structural damage tolerance and reliability in the...
Amethodology is developed and applied that determines the sensitivities of the probability-of-fractu...
This paper describes the development and testing of a new algorithm to identify faulty sensors, base...