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excitatieinput

Excitatieinput is the external signal or force that drives the dynamics of a system, causing it to respond away from its resting state. It is an external or exogenous input distinct from the system’s own internal state evolution.

In the context of control theory and systems engineering, excitatieinput is often denoted u(t) and is treated

In experimental engineering, excitation input is used in tests to identify models, estimate parameters, or determine

In neuroscience and physiology, excitation input can refer to synaptic inputs or other stimuli that depolarize

as
a
forcing
term
in
the
system
equations
x'
=
f(x,
u,
t).
It
can
be
deterministic,
such
as
a
sinusoid,
ramp,
or
step,
or
stochastic,
such
as
white
noise
or
a
random
process.
The
properties
of
the
excitation,
including
amplitude,
frequency
content
and
duration,
determine
what
aspects
of
the
system
are
observable
or
identifiable.
frequency
response
(modal
analysis).
Common
excitation
signals
include
sinusoidal
sweeps,
pseudo-random
binary
sequences,
and
broadband
noise.
A
good
excitation
covers
a
sufficient
range
of
frequencies
and
amplitudes
to
avoid
unidentifiable
models.
a
neuron
or
tissue,
increasing
the
probability
of
action
potential
firing.
The
term
reflects
the
role
of
external
or
network
inputs
in
driving
activity,
separate
from
intrinsic
oscillations.