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selfinterference

Self-interference is interference produced by a device’s own transmitted energy leaking into its receiver. It is a central challenge in systems that perform concurrent transmission and reception, such as full-duplex wireless radios, and it can also arise in acoustic, optical, and radar contexts.

Causes include transmitter leakage through imperfect isolation between transmit and receive paths, antenna coupling, impedance mismatches,

Impact includes degraded receiver sensitivity and dynamic range, increased noise floor, and potential saturation of analog-to-digital

Mitigation and cancellation rely on a combination of approaches. Passive isolation, such as greater antenna separation,

In research and practice, self-interference cancellation enables practical full-duplex communication, potentially doubling spectral efficiency by allowing

and
reflections
in
cables
and
antennas.
Nonlinearities
in
the
power
amplifier
and
other
RF
components
can
generate
spurious
signals
that
fall
within
the
receiver
band.
Even
with
directional
antennas
and
shielding,
residual
self-interference
can
be
significant,
particularly
when
the
transmitted
signal
is
much
stronger
than
the
wanted
received
signal.
converters,
all
of
which
can
limit
link
performance
and
reliability.
shielding,
and
absorptive
materials,
reduces
leakage.
Active
cancellation
uses
an
analog
process
to
create
a
tuned
replica
of
the
transmit
signal
to
subtract
it
from
the
received
signal
before
or
during
reception.
Digital
cancellation
follows,
modeling
the
remaining
self-interference
in
baseband
and
subtracting
it
after
sampling.
Effective
cancellation
often
requires
system
calibration
to
account
for
changing
channel
conditions
and
device
nonidealities.
In
some
designs,
time-
or
frequency-division
duplexing
is
used
to
reduce
overlap.
simultaneous
transmission
and
reception
on
the
same
channel.