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modulationlike

Modulationlike refers to a broad class of signal processing techniques that produce a modulated signal by varying a carrier waveform in time according to a secondary control signal, with emphasis on flexible, sometimes nonlinear, or time-varying modulation schemes that generalize conventional modulation. In its general form, a modulationlike signal can be expressed as y(t) = A(t) s(ψ(t)) where A(t) is an envelope, ψ(t) is a phase function determined by the modulating signal, and s(·) is a fixed base waveform. In many formulations, s is a cosine or complex exponential, yielding a generalized form that includes AM, FM, PM as special cases when A or ψ are chosen accordingly. Modulationlike methods may allow instantaneous changes in modulation index, non-sinusoidal carriers, or multidimensional modulation where multiple base signals modulate different parameters.

Mathematical and conceptual flexibility characterizes the approach, enabling a range of implementations from purely linear to

Applications include communication system design, audio and music synthesis, radar and sonar waveform design, and feature

nonlinear
and
time-varying
schemes.
This
flexibility
can
be
useful
for
shaping
spectra,
controlling
instantaneous
frequency,
or
embedding
information
in
more
complex
signal
structures
than
traditional
single-parameter
modulations.
However,
the
term
is
not
universally
standardized
and
is
often
used
descriptively
rather
than
as
a
formal
category
in
textbooks.
extraction
in
biomedical
signals.
In
practice,
the
term
modulationlike
appears
primarily
in
research
contexts,
where
researchers
describe
a
technique
as
modulationlike
when
it
resembles
modulation
in
spirit
but
does
not
fit
classical
definitions.
Related
concepts
include
conventional
amplitude,
frequency,
and
phase
modulation,
quadrature
modulation,
and
generalized
or
adaptive
modulation
schemes.