Home

foutboomanalyses

Foutboomanalyses, commonly referred to in English as fault tree analysis (FTA), is a systematic, deductive method used to analyze safety hazards by examining how a specified undesired top event could occur. Originating in the 1960s, it was developed to support safety assessments in complex engineering systems and has since become a standard tool in industries where reliability and safety are critical, such as aerospace, nuclear power, chemical processing, and automotive engineering.

The method starts with a top event, the undesired outcome to prevent, and builds a hierarchical fault

Foutboomanalyses is frequently used for design reviews, safety cases, and regulatory compliance, and is often integrated

tree
that
decomposes
this
event
into
contributing
causes.
Components
in
the
tree
are
connected
by
logic
gates,
typically
AND
and
OR,
with
basic
events
representing
elementary
failures
or
external
factors
and
intermediate
events
representing
combinations
of
lower-level
events.
The
qualitative
phase
identifies
minimal
cut
sets,
the
smallest
combinations
of
basic
events
that
lead
to
the
top
event,
highlighting
the
most
relevant
failure
paths.
The
quantitative
phase
assigns
probabilities
to
basic
events
and
propagates
them
through
the
logic
to
estimate
the
probability
of
the
top
event.
This
often
assumes
independence
between
events
unless
dependencies
are
specifically
modeled,
and
it
may
employ
probability
calculations
or
approximations
for
rare
events.
with
other
risk
assessment
approaches
such
as
event
trees
and
probabilistic
risk
assessment.
While
powerful,
the
technique
relies
on
the
accuracy
and
completeness
of
the
fault
tree
model;
complex
systems
can
yield
large
trees,
and
correlations
or
dynamic
interactions
between
components
can
limit
the
method’s
applicability
without
careful
modeling.