Home

infrageluidsignalen

Infrageluidsignalen, or infrared acoustic signals, refer to the use of sound waves with frequencies below 20 kHz, the lower boundary of human hearing. Because these low‑frequency signals can travel long distances in air, water, or through solid media, they are employed in applications where conventional radio or ultrasonic methods are impractical. For example, underwater communication systems often use infrageluiden to transmit data between submarines, underwater vehicles, and coastal monitoring stations since the low attenuation of long‑wavelength sound in water facilitates long‑range operation. In a similar vein, seismic monitoring uses infrageluidsignalen to detect and track the propagation of low‑frequency vibrations generated by earthquakes or human activity, allowing for early warning systems and detailed subsurface imaging.

The advantages of infrageluidsignalen include low power consumption, minimal interference from electromagnetic sources, and the ability

Historically, the study of infrageluiden began in the early 20th century with seismic research, but recent

to
penetrate
materials
that
block
radio
frequencies.
However,
the
long
wavelengths
also
require
larger
transducers,
and
the
bandwidth
available
for
data
transmission
is
limited,
resulting
in
lower
data
rates
compared
to
higher‑frequency
acoustic
or
radio
systems.
advances
in
digital
signal
processing
and
low‑loss
materials
have
expanded
its
use
into
environmental
monitoring,
industrial
defect
detection,
and
even
certain
medical
imaging
techniques.
While
still
niche,
ongoing
research
aims
to
enhance
modulation
schemes,
improve
signal-to-noise
ratios,
and
integrate
infrageluidsignalen
into
hybrid
sensor
networks
for
robust,
low‑frequency
acoustic
communication.