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pitchsplitting

Pitchsplitting is a concept used in audio signal processing, music information retrieval, and digital sound synthesis to describe techniques that handle pitch information by separating or duplicating it into multiple concurrent pitch components. It can refer to both splitting a monophonic pitch into several pitch streams for synthesis and separating a complex signal into multiple pitch tracks for analysis.

In synthesis, pitchsplitting can help create richer timbres by distributing energy across adjacent pitches or subharmonics,

Techniques associated with pitchsplitting include sub-band pitch estimation, where the spectrum is divided into frequency bands

Common challenges include pitch aliasing and octave ambiguities, rapid note changes, noisy or overlapping sources, and

enabling
more
expressive
or
evolving
textures.
In
analysis,
it
supports
polyphonic
pitch
tracking
by
producing
several
pitch
estimates
that
may
correspond
to
different
voices
or
instruments
within
a
recording.
This
dual
use
makes
pitchsplitting
relevant
to
tasks
such
as
polyphonic
transcription,
vocal
and
instrument
separation,
and
advanced
pitch
correction
in
complex
musical
textures.
and
a
pitch
is
estimated
per
band;
sub-harmonic
or
harmonic
decomposition,
which
models
a
pitch
as
a
combination
of
sub-
or
super-harmonics
and
allocates
them
across
multiple
streams;
and
multi-pitch
estimation
approaches
that
employ
probabilistic
models
or
neural
networks
to
output
several
simultaneous
pitch
candidates.
In
some
contexts,
pitchsplitting
may
also
refer
to
deliberately
separating
a
single
note
into
parallel
pitch
tracks
to
model
vibrato,
detuning,
or
other
expressive
phenomena.
computational
complexity.
Evaluations
often
use
metrics
for
the
accuracy
of
detected
pitches,
such
as
precision,
recall,
and
F-measure,
across
polyphonic
situations.
See
also
pitch
detection,
polyphonic
transcription,
and
multi-pitch
estimation.