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NoiseCanceling

Noisecanceling, or active noise control, refers to methods that reduce unwanted sound by generating an anti-noise signal that interferes destructively with the original noise. It is commonly contrasted with passive noise cancellation, which relies on physical barriers such as ear cups, padding, or enclosure walls to block sound. Many systems use a combination of both approaches in a hybrid arrangement.

An noisecanceling system typically includes microphones to sense ambient noise, a signal processor to generate an

Performance characteristics show noisecanceling is most effective at low frequencies, where sound wavelengths are long and

Applications span consumer headphones and earbuds, aviation headsets, automotive and industrial environments, and room or cabin

inverse
waveform,
and
actuators
such
as
speakers
to
emit
the
anti-noise.
The
processing
often
relies
on
adaptive
filters,
such
as
finite
impulse
response
or
least-mean-squares
algorithms,
that
continuously
adjust
the
anti-noise
to
match
changing
noise
conditions.
Configurations
are
described
as
feedforward,
feedback,
or
hybrid:
feedforward
systems
sense
noise
before
it
reaches
the
listener,
feedback
systems
monitor
residual
noise
after
it
has
been
produced,
and
hybrids
combine
both
sensing
strategies.
cancellation
can
be
achieved
with
relatively
small
phase
shifts.
High-frequency
cancellation
is
more
difficult
due
to
rapid
phase
variations,
arriving
noise
from
multiple
directions,
and
practical
limits
on
sensor
and
processor
latency.
Limitations
include
wind
noise,
occlusion
effects
from
ear
molds
or
headphones,
power
consumption,
and
occasional
distortion
of
desired
sounds
if
the
control
loop
is
poorly
tuned.
installations.
The
technology
aims
to
improve
comfort
and
perceived
loudness,
particularly
in
consistently
noisy
settings,
by
reducing
the
need
for
large
passive
barriers.