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pålitelighetsdrevet

Pålitelighetsdrevet is a Norwegian term describing a design and development approach in which reliability is the primary criterion guiding decisions throughout the product life cycle. It is used across engineering disciplines and systems engineering to ensure that products and services perform as intended under expected operating conditions and over time.

The approach emphasizes early establishment of reliability requirements and uses reliability-centered methods such as failure modes

Across the life cycle, data collection and analysis are essential. Field failure data, manufacturing data, and

Applications of pålitelighetsdrevet practice span aerospace, automotive, industrial automation, software systems, and critical infrastructure. Benefits include

Relatert terminology and frameworks include reliability-centered design, RAMS engineering, and safety-critical engineering. Standards commonly referenced alongside

and
effects
analysis
(FMEA)
and
fault
tree
analysis
(FTA).
It
integrates
design-for-reliability,
redundancy,
fault
tolerance,
and
modular
architectures
to
enhance
resilience.
RAMS
considerations
(reliability,
availability,
maintainability,
and
safety)
guide
architecture,
testing,
and
qualification,
with
reliability
analysis
embedded
in
planning
and
reviews.
reliability
metrics
like
MTBF
and
MTTR
inform
reliability
growth,
prognostics,
and
predictive
maintenance.
Testing
strategies
include
accelerated
life
and
stress
testing,
aim
to
demonstrate
reliability
requirements,
and
verify
that
maintenance
concepts
meet
expected
availability
targets.
reduced
downtime,
improved
safety,
lower
total
cost
of
ownership,
and
higher
stakeholder
confidence.
Challenges
involve
higher
upfront
costs,
the
need
for
robust
data
infrastructure,
potential
organizational
resistance,
and
ensuring
alignment
with
relevant
standards
and
regulations.
pålitelighetsdrevet
work
include
ISO
15288
for
systems
engineering,
ISO
26262
for
road
vehicles,
and
IEC
61508
for
functional
safety.