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meetfrequenties

Meetfrequenties is a term used in Dutch to describe the cadence or rate at which measurements are taken in any process or system. It refers to the sampling frequency or measurement cadence that governs data collection, observation, or monitoring. The choice of meetfrequenties influences data resolution, responsiveness, and cost, and it is a fundamental parameter in experimental design, process control, and analytics.

Determining meetfrequenties depends on the purpose of measurement, the dynamics of the phenomenon, required accuracy, and

Applications span manufacturing quality control, environmental monitoring, healthcare, IT and network monitoring, and financial data collection.

the
acceptable
level
of
data
loss
or
delay.
Other
factors
include
noise,
bandwidth
of
the
signal,
data
storage
and
processing
capacity,
energy
constraints,
and
regulatory
requirements.
In
theory,
the
Nyquist-Shannon
principle
guides
the
choice:
the
sampling
frequency
should
be
at
least
twice
the
highest
relevant
frequency
in
the
signal
to
avoid
aliasing,
with
a
safety
margin
in
practice.
Oversampling
can
improve
accuracy
but
increases
data
volume;
event-driven
sampling
may
replace
fixed
schedules
when
rapid
changes
are
rare.
Examples:
a
weather
station
might
record
temperature
every
five
minutes;
a
clinical
trial
could
log
vital
signs
every
15
to
30
minutes;
an
industrial
sensor
network
may
switch
between
high
cadence
during
operation
and
low
cadence
during
idle
periods.
Practitioners
balance
accuracy,
timeliness,
and
cost,
and
may
adapt
meetfrequenties
over
time
in
response
to
changing
conditions
or
data
insights.