Add to ORKGAn improved methodology for quantitatively evaluating failure risk of spaceflight systems to assess flight readiness and identify risk control measures is presented. This methodology, called Probabilistic Failure Assessment (PFA), combines operating experience from tests and flights with analytical modeling of failure phenomena to estimate failure risk. The PFA methodology is of particular value when information on which to base an assessment of failure risk, including test experience and knowledge of parameters used in analytical modeling, is expensive or difficult to acquire. The PFA methodology is a prescribed statistical structure in which analytical models that characterize failure phenomena are used conjointly with uncertainties about...
Quantifying the probability of significant launch vehicle failure scenarios for a given design, whil...
Failure of critical engine components such as compressor, fan, and turbine disks during flight can c...
Although many engineering systems and components have a very low probability of failure, the consequ...
An improved methodology for quantitatively evaluating failure risk of spaceflight systems to assess ...
An improved methodology for quantitatively evaluating failure risk of spaceflight systems to assess ...
Physics-based models are routinely used to predict the performance of engineered systems to make dec...
Lessons learned from past failures of launch vehicle developments and operations were used to create...
The majority of aircraft structures are designed to be damage-tolerant such that safe operation can ...
Lessons learned from past failures of launch vehicle developments and operations were used to create...
Since the Shuttle Challenger accident in 1986, communities across NASA have been developing and exte...
Turbine engine disk life prediction and understanding the associated risk remains a significant chal...
Create an improved method to calculate reliability of a conceptual launch vehicle system prior to fa...
Since the Shuttle Challenger accident in 1986, communities across National Aeronautic and Space Admi...
Probabilistic Structural Analysis (PSA) is now commonly used for predicting the distribution of time...
This paper summarizes a methodology developed at NASA Lewis Research Center which computationally si...
Quantifying the probability of significant launch vehicle failure scenarios for a given design, whil...
Failure of critical engine components such as compressor, fan, and turbine disks during flight can c...
Although many engineering systems and components have a very low probability of failure, the consequ...
An improved methodology for quantitatively evaluating failure risk of spaceflight systems to assess ...
An improved methodology for quantitatively evaluating failure risk of spaceflight systems to assess ...
Physics-based models are routinely used to predict the performance of engineered systems to make dec...
Lessons learned from past failures of launch vehicle developments and operations were used to create...
The majority of aircraft structures are designed to be damage-tolerant such that safe operation can ...
Lessons learned from past failures of launch vehicle developments and operations were used to create...
Since the Shuttle Challenger accident in 1986, communities across NASA have been developing and exte...
Turbine engine disk life prediction and understanding the associated risk remains a significant chal...
Create an improved method to calculate reliability of a conceptual launch vehicle system prior to fa...
Since the Shuttle Challenger accident in 1986, communities across National Aeronautic and Space Admi...
Probabilistic Structural Analysis (PSA) is now commonly used for predicting the distribution of time...
This paper summarizes a methodology developed at NASA Lewis Research Center which computationally si...
Quantifying the probability of significant launch vehicle failure scenarios for a given design, whil...
Failure of critical engine components such as compressor, fan, and turbine disks during flight can c...
Although many engineering systems and components have a very low probability of failure, the consequ...