Abstract
Coronavirus
disease
(COVID‐19)
is
a
pandemic
that
has
caused
thousands
of
casualties
and
impacts
all
over
the
world.
Most
countries
are
facing
shortage
COVID‐19
test
kits
in
hospitals
due
to
daily
increase
number
cases.
Early
detection
can
protect
people
from
severe
infection.
Unfortunately,
be
misdiagnosed
as
pneumonia
or
other
illness
lead
patient
death.
Therefore,
order
avoid
spread
among
population,
it
necessary
implement
an
automated
early
diagnostic
system
rapid
alternative
system.
Several
researchers
have
done
very
well
detecting
COVID‐19;
however,
most
them
lower
accuracy
overfitting
issues
make
screening
difficult.
Transfer
learning
successful
technique
solve
this
problem
with
higher
accuracy.
In
paper,
we
studied
feasibility
applying
transfer
added
our
own
classifier
automatically
classify
because
suitable
for
medical
imaging
limited
availability
data.
work,
proposed
CNN
model
based
on
deep
using
six
different
pre‐trained
architectures,
including
VGG16,
DenseNet201,
MobileNetV2,
ResNet50,
Xception,
EfficientNetB0.
A
total
3886
chest
X‐rays
(1200
cases
COVID‐19,
1341
healthy
1345
viral
pneumonia)
were
used
study
effectiveness
model.
comparative
analysis
models
three
classes
X‐ray
datasets
was
carried
out
find
Experimental
results
show
VGG16
able
accurately
diagnose
patients
97.84%
accuracy,
97.90%
precision,
97.89%
sensitivity,
F
1‐score.
Evaluation
data
shows
produces
highest
CNNs
seems
choice
classification.
We
believe
situation,
will
support
healthcare
professionals
improving
screening.
Journal of Applied Biomedicine,
Год журнала:
2022,
Номер
42(3), С. 1012 - 1022
Опубликована: Июль 1, 2022
The
objective
and
automated
detection
of
pneumonia
represents
a
serious
challenge
in
medical
imaging,
because
the
signs
illness
are
not
obvious
CT
or
X-ray
scans.
Further
on,
it
is
also
an
important
task,
since
millions
people
die
every
year.
main
goal
this
paper
to
propose
solution
for
above
mentioned
problem,
using
novel
deep
neural
network
architecture.
proposed
novelty
consists
use
dropout
convolutional
part
network.
method
was
trained
tested
on
set
5856
labeled
images
available
at
one
Kaggle’s
many
imaging
challenges.
chest
(anterior-posterior)
were
selected
from
retrospective
cohorts
pediatric
patients,
aged
between
five
years,
Guangzhou
Women
Children’s
Medical
Center,
Guangzhou,
China.
Results
achieved
by
our
would
have
placed
first
Kaggle
competition
with
following
metrics:
97.2%
accuracy,
97.3%
recall,
97.4%
precision
AUC=0.982,
they
competitive
current
state-of-the-art
solutions.
International Journal of Imaging Systems and Technology,
Год журнала:
2021,
Номер
32(2), С. 658 - 672
Опубликована: Сен. 13, 2021
Abstract
Deep
learning‐based
applications
for
disease
detection
are
essential
tools
experts
to
effectively
diagnose
diseases
at
different
stages.
In
this
article,
a
new
approach
based
on
an
evidence
fusion
theory
is
proposed,
allowing
the
combination
of
set
deep
learning
classifiers
provide
more
accurate
results.
The
main
contribution
work
application
Dempster–Shafer
five
pre
trained
convolutional
neural
networks
including
VGG16,
Xception,
InceptionV3,
ResNet50,
and
DenseNet201
diagnosis
pneumonia
from
chest
X‐ray
images.
To
evaluate
approach,
experiments
conducted
using
publicly
available
dataset
containing
than
5800
obtained
results
demonstrate
that
our
provides
excellent
performance
compared
other
state‐of‐the‐art
methods;
it
achieves
precision
97.5%,
recall
98%,
f1‐score
97.8%,
accuracy
97.3%.
Information Fusion,
Год журнала:
2022,
Номер
89, С. 53 - 65
Опубликована: Авг. 13, 2022
The
use
of
automatic
systems
for
medical
image
classification
has
revolutionized
the
diagnosis
a
high
number
diseases.
These
alternatives,
which
are
usually
based
on
artificial
intelligence
(AI),
provide
helpful
tool
clinicians,
eliminating
inter
and
intra-observer
variability
that
diagnostic
process
entails.
Convolutional
Neural
Network
(CNNs)
have
proved
to
be
an
excellent
option
this
purpose,
demonstrating
large
performance
in
wide
range
contexts.
However,
it
is
also
extremely
important
quantify
reliability
model's
predictions
order
guarantee
confidence
classification.
In
work,
we
propose
multi-level
ensemble
system
Bayesian
Deep
Learning
approach
maximize
while
providing
uncertainty
each
decision.
This
combines
information
extracted
from
different
architectures
by
weighting
their
results
according
predictions.
Performance
evaluated
real
scenarios:
first
one,
aim
differentiate
between
pulmonary
pathologies:
controls
vs
bacterial
pneumonia
viral
pneumonia.
A
two-level
decision
tree
employed
divide
3-class
into
two
binary
classifications,
yielding
accuracy
98.19%.
second
context,
assessed
Parkinson's
disease,
leading
95.31%.
reduced
preprocessing
needed
obtaining
performance,
addition
provided
about
evidence
applicability
used
as
aid
clinicians.
Journal of Cloud Computing Advances Systems and Applications,
Год журнала:
2023,
Номер
12(1)
Опубликована: Янв. 10, 2023
Abstract
Today,
internet
and
social
media
is
used
by
many
people,
both
for
communication
expressing
opinions
about
various
topics
in
domains
of
life.
Various
artificial
intelligence
technologies-based
approaches
on
analysis
these
have
emerged
natural
language
processing
the
name
different
tasks.
One
tasks
Sentiment
analysis,
which
a
popular
method
aiming
task
analyzing
people’s
provides
powerful
tool
making
decisions
companies,
governments,
researchers.
It
desired
to
investigate
effect
using
multi-layered
neural
networks
together
performance
model
be
developed
sentiment
task.
In
this
study,
new,
deep
learning-based
was
proposed
IMDB
movie
reviews
dataset.
This
performs
classification
vectorized
two
methods
Word2Vec,
namely,
Skip
Gram
Continuous
Bag
Words,
three
vector
sizes
(100,
200,
300),
with
help
6
Bidirectional
Gated
Recurrent
Units
2
Convolution
layers
(MBi-GRUMCONV).
experiments
conducted
model,
dataset
split
into
80%-20%
70%-30%
training-test
sets,
10%
training
splits
were
validation
purposes.
Accuracy
F1
score
criteria
evaluate
performance.
The
95.34%
accuracy
has
outperformed
studies
literature.
As
result
experiments,
it
found
that
better
contribution
success.
Heliyon,
Год журнала:
2023,
Номер
9(2), С. e13636 - e13636
Опубликована: Фев. 1, 2023
Convolutional
neural
networks
(CNNs)
have
demonstrated
exceptional
results
in
the
analysis
of
time-
series
data
when
used
for
Human
Activity
Recognition
(HAR).
The
manual
design
such
architectures
is
an
error-prone
and
time-consuming
process.
search
optimal
CNN
considered
a
revolution
networks.
By
means
Neural
Architecture
Search
(NAS),
network
can
be
designed
optimized
automatically.
Thus,
architecture
representation
found
automatically
because
its
ability
to
overcome
limitations
human
experience
thinking
modes.
Evolution
algorithms,
which
are
derived
from
evolutionary
mechanisms
as
natural
selection
genetics,
been
widely
employed
develop
optimize
NAS
they
handle
blackbox
optimization
process
designing
appropriate
solution
representations
paradigms
without
explicit
mathematical
formulations
or
gradient
information.
Genetic
algorithm
(GA)
find
near-optimal
solutions
difficult
problems.
Considering
these
characteristics,
efficient
activity
recognition
(AUTO-HAR)
presented
this
study.
Using
GA
select
architecture,
current
study
proposes
novel
encoding
schema
structure
space
with
much
broader
range
operations
effectively
best
HAR
tasks.
In
addition,
proposed
provides
reasonable
degree
depth
it
does
not
limit
maximum
length
devised
task
architecture.
To
test
effectiveness
framework
tasks,
three
datasets
were
utilized:
UCI-HAR,
Opportunity,
DAPHNET.
Based
on
study,
has
that
method
efficiently
recognize
average
accuracy
98.5%
(∓1.1),
98.3%,
99.14%
(∓0.8)
DAPHNET,
respectively.
