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intercalibration

Intercalibration is the process of ensuring that measurements from different instruments, sensors, or measurement sites are directly comparable. It aims to identify and reduce systematic differences among devices within a network, rather than calibrating a single instrument in isolation. Intercalibration often relies on shared reference standards, co-located measurements, or intercomparison campaigns to establish agreement across diverse systems.

Applications appear in environmental monitoring, meteorology, oceanography, remote sensing, astronomy, and medical instrumentation. In satellite and

Common methods include side-by-side or co-located measurements, participation in intercomparison exercises, statistical analyses to quantify biases

Challenges include instrument aging and drift, nonlinear responses, spectral or methodological differences, environmental variability, and gaps

airborne
remote
sensing,
intercalibration
aligns
sensor
responses
across
platforms
to
support
consistent
data
records
over
time.
In
air
quality
networks,
co-located
samplers
or
reference
instruments
are
used
to
derive
correction
factors
that
harmonize
measurements
across
sites.
and
uncertainties,
and
the
derivation
of
adjustment
coefficients
or
transfer
functions.
The
goal
is
to
maintain
traceability
to
international
standards
and
to
document
uncertainties
so
users
can
appropriately
combine
data
from
different
sources.
in
reference
materials.
Effective
intercalibration
requires
ongoing
quality
assurance
programs,
transparent
reporting,
and
regular
updates
as
sensors
and
calibration
techniques
evolve.