IEEE Transactions on Circuits & Systems II Express Briefs,
Journal Year:
2024,
Volume and Issue:
71(8), P. 3970 - 3974
Published: March 5, 2024
Memristor-based
in-memory
computing
has
emerged
as
a
promising
solution
for
overcoming
the
computational
bottleneck
associated
with
traditional
von
Neumann
architectures.
Despite
its
potential,
there
is
notable
absence
of
circuits
specifically
designed
quaternion
operations.
In
this
brief,
we
propose
novel
memristor
array-based
circuit
multiplication,
enabling
efficient
computation
The
functionality
examined
through
simulations.
Additionally,
present
design
peripheral
differential
equation,
which
crucial
aircraft
attitude
calculations.
Through
comprehensive
comparison
between
and
numerical
simulations,
validate
correctness
effectiveness
circuits.
application
memristor-based
holds
great
promise
revolutionizing
control.
International Journal of Bifurcation and Chaos,
Journal Year:
2024,
Volume and Issue:
34(01)
Published: Jan. 1, 2024
Offset
boosting
is
a
crucial
passage
for
chaotic
signal
modification
in
chaos-based
engineering.
Searching
an
offset
controller
3D
system
usually
complex,
let
alone
two
independent
nonbifurcating
constants.
This
paper
constructs
class
of
systems,
providing
single
constant
posing
direct
dimensions.
boostable
regime
has
multiple
typical
control
modes,
including
variable
control,
synchronous
common
reverse
and
differential
control.
new
type
systems
also
finds
two-dimensional
combined
with
amplitude
IEEE Transactions on Industrial Electronics,
Journal Year:
2023,
Volume and Issue:
71(8), P. 9569 - 9579
Published: Nov. 1, 2023
A
discrete
memristor
is
introduced
into
the
Rulkov
neuron
to
mimic
biological
neuronal
synapse
and
modify
firing
dynamics.
In
memristive
neuron,
chaotic
with
local
amplitude
control
obtained,
where
range
of
bursting
can
be
modified
by
two
independent
controllers.
These
bifurcation
parameters
provide
direct
amplitude/frequency
control.
Furthermore,
offset
boosting-entangled
complex
dynamics
are
captured,
initial
condition
membrane
potential
visit
any
self-reproducing
attractors
even
firing,
indicating
coexistence
homogeneous
heterogeneous
multistabilities.
Consequently,
a
CH32-based
circuit
developed
verify
various
activities.
The
pseudo-random
number
generator
results
explored
based
on
National
Institute
Standards
Technology
showing
its
higher
performance
in
secure
optical
communication,
which
further
proved
seven-core
2-km
communication
setup.
IEEE Transactions on Industrial Informatics,
Journal Year:
2023,
Volume and Issue:
20(4), P. 6130 - 6141
Published: Dec. 29, 2023
The
high
cost,
low
yield,
and
stability
of
nanomaterials
significantly
hinder
the
application
development
memristors.
To
promote
memristors,
researchers
proposed
a
variety
memristor
emulators
to
simulate
functions
apply
them
in
various
fields.
However,
these
lack
nonvolatile
characteristics,
limiting
their
scope
application.
This
article
proposes
an
innovative
circuit
based
on
complementary
metal–oxide–semiconductor
(CMOS)
technology,
expanding
horizons
emulators.
is
fabricated
reconfigurable
array
architecture
using
standard
CMOS
process,
allowing
connection
between
memristors
be
altered
by
configuring
on
–
xmlns:xlink="http://www.w3.org/1999/xlink">off
state
switches.
Compared
nanomaterial
this
offers
advantages
manufacturing
cost
easy
mass
production,
which
can
further
studied
constructing
echo
network
for
short-term
load
forecasting
power
system.
