fault tree analysis , FTA (abbreviation)

Now, I haven't looked at the fault tree analysis yet that's being performed.

And that's why were doing a fault tree analysis.

Some of the techniques used, such as fault tree analysis, are derived from safety engineering.

"Well, I'll have to perform a fault tree analysis to get some measure of confidence in such a proposal."

And remember what a fault tree analysis is.

The most severe conditions require the most extensive fault tree analysis.

One such method is fault tree analysis.

Monitoring includes electronic and visual surveillance of critical parameters identified during the fault tree analysis design stage.

And maybe down within that fault tree analysis is a box that says main landing gear pyrotechnics.

Techniques include fault tree analysis and event tree analysis (see Glossary).

These include Failure mode and effects analysis and Fault tree analysis.

When you just list possible causes, as for instance in fault tree analysis, you may tend to discount any one factor in isolation.

It should be combined with other analytical tools such as failure mode and effects analysis and fault tree analysis for example.

Fault tree analysis is one tool with which a protection engineer can compare the relative reliability of proposed protection schemes.

The two most common fault modeling techniques are called failure mode and effects analysis and fault tree analysis.

Originally, engineers were responsible for the development of Fault Tree Analysis, as a deep knowledge of the system under analysis is required.

Fault tree analysis (FTA) is a top-down, deductive analytical method.

Independent failures, represented by an AND gate in a fault tree analysis, have a low probability of occurring in the same flight.

Fault tree analysis (FTA) is better suited for "top-down" analysis.

In that case Fault Tree Analysis and/or Event Trees may be needed to determine exact probability and risk levels.

Fault tree analysis (FTA)

Fault Tree Analysis (FTA)

Fault Tree Analysis (FTA) attempts to model and analyze failure processes of engineering and biological systems.

Typical design methods include probabilistic risk assessment, a method that combines failure mode and effects analysis (FMEA) with fault tree analysis.

In contrast, the Fault Tree Analysis (FTA) evaluates risk by tracing backwards in time or backwards through a cause chain.