The
agricultural
quarter
has
visible
a
shift
to
digitalization
enhance
fee
crop
production.
It
been
facilitated
through
the
mixing
of
sensors
and
actuators
that
offer
feedback
on
situation
farm,
ensuing
in
implementation
circumstance-based
total
farming
maximize
output.
However,
connectivity
between
is
often
constrained
by
current
protocols,
leading
statistics
loss
unreliable
comments
from
farm.
Agriculture
can
use
an
extended
range
Internet
Factors
(IoT)
technologies,
resulting
advanced
transfer
quotes
maximized
range.
This
more
desirable
may
be
completed
using
various
communique
protocols
information
compression
strategies.
Adopting
these
techniques
also
extra
reliable
comfy
records
verbal
exchange.
As
result,
region
benefit
progressed
yield
higher
monetary
returns
because
stepped-forward
performance
2021 14th International Conference on Developments in eSystems Engineering (DeSE),
Journal Year:
2023,
Volume and Issue:
unknown, P. 82 - 87
Published: Jan. 9, 2023
Future
Internet,
described
as
an
"Internet
of
Things,"
is
planned
to
be
a
global
network
connected
items,
each
with
unique
address,
based
on
industry-standard
protocol.
It
important
growing
technology
for
environmental
monitoring
and
future
enterprises.
IoT
could
linking
commonplace
objects
the
such
smart
phones,
actuators
sensors
enable
new
communication
forms
between
themselves
well
people.
Internet
Things
(IoT)
wireless
sensor
networks
(WSN)
can
used
perform
home
technologies.
This
research
presented
Ad
hoc
routing
protocols
in
-based
WSN
system
using
Riverbed
Modeler
simulation
platform.
The
Mesh
topology-ZigBee
(IEEE
802.15.4)
standard.
Different
applications
Data
Access,
File
transfer,
Peer
-
peer
sharing,
Voice
Video,
Mobile
Messaging
were
applied
different
number
scenarios
Wireless
Sensor
Network
three
(AODV,
OLSR
GRP
hybrid
protocol)
taken
this
study.
In
modeled
study,
sensing
nodes
(sensors)
sense
condition
send
collected
data
controller
which
it
represented
by
ZigBee
coordinator.
sent
sensor's
WiFi
act
gateway,
so
that
monitored
controlled
user
via
Internet.
outcomes
showed
ad
protocol
played
role
improve
network's
performance
terms
QoS
parameters
(delay,
throughput
dropped)
due
deficiency
occurs
because
interference
since
they
utilize
free
frequency
band
2.4GHz.
AODV
investigated
better
improvement
delay
acceptable
dropped.
Information,
Journal Year:
2023,
Volume and Issue:
14(11), P. 592 - 592
Published: Nov. 1, 2023
Recently,
the
precise
location
of
sensor
nodes
has
emerged
as
a
significant
challenge
in
realm
Internet
Things
(IoT)
applications,
including
Wireless
Sensor
Networks
(WSNs).
The
accurate
determination
geographical
coordinates
for
detected
events
holds
pivotal
importance
these
applications.
Despite
DV-Hop
gaining
popularity
due
to
its
cost-effectiveness,
feasibility,
and
lack
additional
hardware
requirements,
it
remains
hindered
by
relatively
notable
localization
error.
To
overcome
this
limitation,
our
study
introduces
three
new
approaches
that
combine
with
Chicken
Swarm
Optimization
(CSO).
primary
objective
is
improve
precision
DV-Hop-based
approaches.
In
paper,
we
compare
efficiency
proposed
algorithms
other
existing
approaches,
several
based
on
Particle
(PSO),
while
considering
random
network
topologies.
simulation
results
validate
algorithms.
HW-DV-HopCSO
algorithm
achieves
considerable
improvement
positioning
accuracy
compared
those
models.
PLoS ONE,
Journal Year:
2023,
Volume and Issue:
18(6), P. e0286913 - e0286913
Published: June 15, 2023
WSN
is
one
of
the
most
efficient
technologies
in
intelligent
communication
and
because
its
advantages,
this
technology
has
been
utilized
various
applications.
By
using
WSNs,
different
types
data
can
be
collected
analyzed
wide
environments.
The
high
variety
applications
available
network
cause
several
challenges
about
heterogeneous
routing.
This
research,
presents
a
Fuzzy
Model
for
Content-Centric
Routing
(FMCCR)
to
solve
these
challenges.
performance
FMCCR
based
on
two
basic
steps:
"topology
control",
"data
transmission
through
content-centric
fuzzy
logic-based
routing
algorithm".
In
first
step
FMCCR,
topology
constructed.
second
proposed
method,
paths
are
determined
content
type,
performed.
evaluated
simulation
environment
results
have
compared
with
previous
algorithms.
show
that
reduce
energy
consumption
improve
traffic
load
distribution
addition
increasing
lifetime.
According
results,
increase
lifetime
at
least
10.74%
same
time,
deliver
88.1%
more
packets
network,
methods.
These
prove
efficiency
method
real-world
scenarios.
International Journal of Power Electronics and Drive Systems/International Journal of Electrical and Computer Engineering,
Journal Year:
2024,
Volume and Issue:
14(2), P. 2262 - 2262
Published: Jan. 26, 2024
The
internet
of
things
(IoT)
is
a
revolutionary
innovation
in
many
aspects
our
society
including
interactions,
financial
activity,
and
global
security
such
as
the
military
battlefield
internet.
Due
to
limited
energy
processing
capacity
network
devices,
security,
consumption,
compatibility,
device
heterogeneity
are
long-term
IoT
problems.
As
result,
critical
for
data
transmission
across
edge
networks.
Existing
interoperability
techniques
need
more
computation
time,
have
unreliable
authentication
mechanisms
that
break
easily,
lose
low
confidentiality.
In
this
paper,
key
agreement
protocol-based
mechanism
devices
offered
solution
issue.
This
system
makes
use
information
exchange,
which
must
be
secured
prevent
access
by
unauthorized
users.
Using
compact
contiki/cooja
simulator,
performance
design
suggested
framework
validated.
simulation
findings
evaluated
based
on
detection
malicious
nodes
after
60
minutes
simulation.
trust
method,
privacy
control,
reduced
packet
loss
ratio
0.32%,
consumed
0.39%
power,
had
greatest
average
residual
0.99
mJoules
at
10
nodes.
Sensors,
Journal Year:
2024,
Volume and Issue:
24(4), P. 1277 - 1277
Published: Feb. 17, 2024
Today,
maintaining
an
Internet
connection
is
indispensable;
as
example,
we
can
refer
to
IoT
applications
that
be
found
in
fields
such
environmental
monitoring,
smart
manufacturing,
healthcare,
buildings,
homes,
transportation,
energy,
and
others.
The
critical
elements
are
both
the
Wireless
Sensor
Nodes
(WSn)
Networks.
It
essential
state
designing
application
demands
a
particular
design
of
WSn,
which
represents
important
time
consumption
during
process.
In
line
with
this
observation,
our
work
describes
development
modular
WSn
(MWSn)
built
digital
processing,
wireless
communication,
power
supply
subsystems.
Then,
reduce
WSn-implementing
process
into
its
sensing
subsystem.
This
would
allow
launching
processes
across
different
become
faster
easier.
Our
proposal
presents
versatile
communication
between
modules
MWSn
using
one-
or
two-wired
protocols,
I2C.
To
validate
efficiency
versatility
proposal,
present
two
IoT-based
remote
monitoring
applications.
Security and Privacy,
Journal Year:
2024,
Volume and Issue:
7(4)
Published: Feb. 22, 2024
Abstract
Many
real‐world
applications,
such
as
smart
cities,
industrial
automation,
health
care,
and
so
forth,
utilize
IoT‐enabled
devices
a
part
of
wireless
networks.
IoT
must
have
low
power
computation
complexity
requirements
with
proper
measures
security
challenges.
Since
traditional
cryptography
techniques
are
not
computationally
efficient,
other
alternatives,
physical
layer
key
generation
(PLKG),
is
one
the
attractive
means
to
achieve
security.
In
this
paper,
we
propose
use
fast
independent
component
analysis
(FICA)
based
KuFaI
(Kurtosis
FICA)
algorithm
for
secured
PLKG
system.
This
method
reduces
data
dimensions
improves
system
performance
regarding
Bit
Disagreement
Rate
(BDR)
randomness.
KuFaI,
rearrange
received
signal
strength
indicator
(RSSI)
set
using
FICA
then
select
components
on
kurtosis
function.
Results
demonstrate
that
proposed
far
better
than
previously
used
PCA‐based
algorithm.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(10), P. e31035 - e31035
Published: May 1, 2024
Implementing
Internet
of
things
(IoT)
technology
in
the
context
intelligent
buildings
and
infrastructure
development
has
garnered
significant
attention
within
construction
sector.
Nonetheless,
implementation
IoT
could
be
improved
by
assessing
various
barriers.
The
purpose
this
study
was
to
examine
obstacles
related
adaptation
techniques
sector,
as
well
effects
on
advancement
building
systems.
employed
a
mixed-method
approach
involving
exploratory
factor
analysis
(EFA)
structural
equation
modeling
(SEM)
determine
six
types
barriers:
knowledge,
technical,
standardization,
creativity,
complexity,
economics.
revealed
that
for
developing
smart
sector
significantly
influenced
all
constructs.
results
offer
ramifications
field.
underscores
necessity
heightened
consciousness
instruction
regarding
advantages
implementing
IoT.
posits
technical
barriers,
including
interoperability,
modernization
legacy
infrastructure,
coordination
collaboration
difficulties,
require
from
industry.
highlights
significance
establishing
industry-wide
standards
protocols
regulatory
legal
frameworks.
Finally,
augmented
funding
financing
options
endeavors.
Subsequent
endeavors
may
expand
upon
present
findings
delving
into
barriers
encountered
alternative
sectors
nations
efficacy
suggested
measures
investigation.
Sensors,
Journal Year:
2023,
Volume and Issue:
23(12), P. 5577 - 5577
Published: June 14, 2023
Geothermal
energy
installations
are
becoming
increasingly
common
in
new
city
developments
and
renovations.
With
a
broad
range
of
technological
applications
improvements
this
field,
the
demand
for
suitable
monitoring
technologies
control
processes
geothermal
is
also
growing.
This
article
identifies
opportunities
future
development
deployment
IoT
sensors
applied
to
installations.
The
first
part
survey
describes
various
sensor
types.
Sensors
that
monitor
temperature,
flow
rate
other
mechanical
parameters
presented
with
background
their
potential
applications.
second
surveys
Internet-of-Things
(IoT),
communication
technology
cloud
solutions
applicable
monitoring,
focus
on
node
designs,
data
transmission
services.
Energy
harvesting
edge
computing
methods
reviewed.
concludes
discussion
research
challenges
an
outline
areas
application
innovating
produce
solutions.
Baltic Journal of Modern Computing,
Journal Year:
2023,
Volume and Issue:
11(3)
Published: Jan. 1, 2023
Currently,
the
development
and
implementation
of
infocommunication
computer
technologies
in
agricultural
enterprises
specialising
cultivation
grain
crops
allow
enhancement
their
efficiency
through
online
monitoring
distributed
parameters
soil
climatic
growing
conditions.This
article
is
focused
on
developing
scientifically
based
provisions
to
enhance
IoT
systems
for
agrotechnical
synthesising
computer-oriented
model
according
optimality
criterion,
which
considers
simultaneous
influence
following
factors:
maximum
uptime
hardware
software
components,
network
coverage
area
minimum
number
wireless
sensor
modules
used.The
main
outcome
results
obtained
system
networks
edge-computing
techniques.The
proposed
implements
adaptive
switching
data
exchange
depending
distance
message
retransmission
aggregation
at
field
level
microprocessor
devices.
Bulletin of Electrical Engineering and Informatics,
Journal Year:
2022,
Volume and Issue:
12(1), P. 493 - 501
Published: Nov. 7, 2022
Currently,
the
integration
of
long-range
(LoRa)
and
internet
things
(IoT)
has
been
widely
adopted
in
various
applications
for
real-time
monitoring
with
reliability.
These
technologies
empower
us
to
achieve
goal
United
Nations
establishment
an
inclusive,
safe,
resilient,
sustainable
environment.
The
automation,
monitoring,
controlling
streetlights
is
a
necessary
task
development
smart
infrastructure.
With
motivation
from
above,
this
study
proposed
LoRa
IoT
server-based
architecture
automation
along
sensors.
To
implement
architecture,
hardware
sensor
node
gateway
based
on
ATMega
328P,
433
MHz
module,
Wi-Fi
module
realized.
realized
deployed
environment
can
sense
motion
object
also
records
intensity
value
server
through
connectivity.
