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mittaustavat

Mittaustavat, or measurement methods, are the procedures and techniques used to determine quantities in science, engineering, and everyday measurements. They encompass how data are collected, how instruments are used, and how results are processed and reported.

Measurements can be categorized in several ways: direct measurements such as length with a ruler; indirect

Important concepts include accuracy (closeness to true value), precision (repeatability), bias, and measurement uncertainty. Ensuring traceability

Standardization and governance: metrology as a discipline; guidelines such as the Guide to the Expression of

Applications span natural and social sciences, industry and environmental monitoring: length and weight in manufacturing, temperature

measurements
inferred
from
other
quantities
(e.g.,
volume
from
mass
and
density);
qualitative
versus
quantitative
methods;
static
versus
dynamic,
destructive
versus
nondestructive,
contact
versus
non‑contact
techniques;
and
primary
methods
that
provide
SI
traceability
versus
secondary
methods
that
are
calibrated
against
standards.
to
national
or
international
standards
via
calibration
certificates
and
reference
materials
is
central
to
quality
and
comparability.
The
measurement
process
typically
involves
selecting
an
appropriate
method,
following
a
documented
procedure,
performing
measurements
under
controlled
conditions,
and
evaluating
uncertainty
and
data
quality.
Uncertainty
in
Measurement
(GUM);
laboratory
accreditation
under
ISO/IEC
17025;
and
the
use
of
reference
materials
and
calibration
laboratories.
and
pressure
monitoring,
imaging-based
or
sensor-based
measurements,
clinical
diagnostics,
and
environmental
sampling.