Jurnal Ilmiah Rekayasa Pertanian dan Biosistem,
Journal Year:
2025,
Volume and Issue:
13(1), P. 55 - 68
Published: March 27, 2025
Melons
are
become
a
popular
fruit
cultivating
inside
the
greenhouse
using
drip
irrigations
in
Indonesia.
The
application
of
internet
things-based
monitoring
is
beneficial
to
optimize
cultivation
management.
Another
issue
on
melon
automation
water
and
nutrient
delivery.
However,
currently
control
expensive
difficult
modify
by
farmers.
aim
this
study
was
develop
low-cost
technology
easy
use
farmers
technology.
method
used
consisted
analysis,
design
implementation.
result
system
monitor
air
temperature,
humidity,
media
humidity
solar
radiation
integrated
with
or
delivery
irrigation.
A
web-based
dashboard
developed
as
user
interface
for
users.
overall
cost
358.24
USD
not
including
thank
(pump
pipe).
deployed
tested
at
Agribusiness
park
IPB
University.
Internet of Things and Cyber-Physical Systems,
Journal Year:
2023,
Volume and Issue:
3, P. 192 - 204
Published: Jan. 1, 2023
The
Internet
of
Things
(IoT)
is
playing
a
significant
role
in
the
transformation
traditional
factories
into
smart
Industry
4.0
by
using
network
interconnected
devices,
sensors,
and
software
to
monitor
optimize
production
process.
Predictive
maintenance
IoT
can
also
be
used
prevent
machine
failures,
reduce
downtime,
extend
lifespan
equipment.
To
energy
usage
during
part
manufacturing,
manufacturers
obtain
real-time
insights
consumption
patterns
deploying
sensors
factories.
Also,
provide
more
comprehensive
view
factory
environment
enhance
workplace
safety
identifying
potential
hazards
alerting
workers
dangers.
Suppliers
use
IoT-enabled
tracking
devices
shipments
updates
on
delivery
times
locations
order
analyze
supply
chain
Moreover,
powerful
technology
which
inventory
management
costs,
improve
efficiency,
visibility
levels
movements.
impact
internet
thing
industry
4.0,
review
presented.
Applications
things
such
as
predictive
maintenance,
asset
tracking,
management,
quality
control,
process
monitoring,
efficiency
optimization
are
reviewed.
Thus,
analyzing
application
new
ideas
advanced
methodologies
provided
control
processes.
Sensors,
Journal Year:
2024,
Volume and Issue:
24(8), P. 2647 - 2647
Published: April 21, 2024
Precision
agriculture,
driven
by
the
convergence
of
smart
sensors
and
advanced
technologies,
has
emerged
as
a
transformative
force
in
modern
farming
practices.
The
present
review
synthesizes
insights
from
multitude
research
papers,
exploring
dynamic
landscape
precision
agriculture.
main
focus
is
on
integration
sensors,
coupled
with
technologies
such
Internet
Things
(IoT),
big
data
analytics,
Artificial
Intelligence
(AI).
This
analysis
set
context
optimizing
crop
management,
using
resources
wisely,
promoting
sustainability
agricultural
sector.
aims
to
provide
an
in-depth
understanding
emerging
trends
key
developments
field
By
highlighting
benefits
integrating
innovative
it
aspires
enlighten
practitioners,
researchers,
policymakers
best
practices,
current
challenges,
prospects.
It
foster
transition
towards
more
sustainable,
efficient,
intelligent
practices
while
encouraging
continued
adoption
adaptation
new
technologies.
Sustainability,
Journal Year:
2023,
Volume and Issue:
15(11), P. 8562 - 8562
Published: May 25, 2023
Industry
4.0
digital
technologies
in
agribusiness
will
enable
traditional
farming
systems
to
migrate
Agriculture
4.0.
Open
innovation
emerges
as
an
enabler
for
implementing
these
and
increased
sector
competitiveness.
However,
there
are
still
doubts
questions
about
how
open
relate
drive
This
study
identified
which
of
have
more
adherence
agribusiness,
what
the
barriers
facilitators
using
are,
can
increase
competitiveness
agribusiness.
The
results
show
that
related
Internet
Things
(IoT)
is
most
prominent.
main
users’
need
knowledge
advanced
skills,
evidences
investment
training
operators.
Among
stand
pre-existence
several
technologies,
bring
with
them
already
defined
basic
structures,
control
technology,
communication
between
systems.
To
overcome
enhance
migration
4.0,
developing
devices,
tools,
systems,
software,
machines
essential.
More
stakeholders,
managers,
practitioners
may
share
such
opportunities
through
concept
Innovation.
benefit
from
it,
facilitators,
should
search
alternatives
their
problems
engineering
solutions
providers.
Artificial Intelligence in Agriculture,
Journal Year:
2024,
Volume and Issue:
12, P. 72 - 84
Published: April 30, 2024
The
issue
of
food
security
continues
to
be
a
prominent
global
concern,
affecting
significant
number
individuals
who
experience
the
adverse
effects
hunger
and
malnutrition.
finding
solution
this
intricate
necessitates
implementation
novel
paradigm-shifting
methodologies
in
agriculture
sector.
In
recent
times,
domain
artificial
intelligence
(AI)
has
emerged
as
potent
tool
capable
instigating
profound
influence
on
sectors.
AI
technologies
provide
advantages
by
optimizing
crop
cultivation
practices,
enabling
use
predictive
modelling
precision
techniques,
aiding
efficient
monitoring
disease
identification.
Additionally,
potential
optimize
supply
chain
operations,
storage
management,
transportation
systems,
quality
assurance
processes.
It
also
tackles
problem
loss
waste
through
post-harvest
reduction,
analytics,
smart
inventory
management.
This
study
highlights
that
how
utilizing
power
AI,
we
could
transform
way
produce,
distribute,
manage
food,
ultimately
creating
more
secure
sustainable
future
for
all.
Smart Agricultural Technology,
Journal Year:
2024,
Volume and Issue:
8, P. 100487 - 100487
Published: June 11, 2024
The
article
provides
a
comprehensive
review
of
the
use
Internet
Things
(IoT)
in
agriculture,
along
with
its
advantages
and
disadvantages.
However,
it's
important
to
recognize
that
IoT
holds
immense
potential
for
generating
new
ideas
could
drive
innovations
modern
agriculture
address
several
challenges
faced
by
farmers
today.
Applications
such
as
smart
irrigation,
precision
farming,
crop
soil
tracking,
greenhouses,
supply
chain
management,
livestock
monitoring,
agricultural
drones,
pest
disease
prevention,
farm
machinery
are
among
areas
considered
implementation
this
paper.
These
innovative
solutions
have
revolutionize
farming
practices,
improve
efficiency,
reduce
resource
wastage,
ultimately
enhance
productivity
sustainability.
analysis
examines
each
application
terms
utility
outlines
measures
necessary
effectiveness.
Key
considerations
include
addressing
connectivity
issues,
managing
costs,
ensuring
data
security
privacy,
scaling
appropriately,
effectively
data,
promoting
awareness
adoption
tools.
Despite
these
challenges,
offers
numerous
benefits
sector.
paper
underscores
importance
collaboration
farmers,
technology
companies,
academia,
policymakers
issues
fully
harness
IoT.
To
achieve
goal,
ongoing
research,
development,
acceptance
IoT-driven
essential
sustain
viable
option
amidst
emerging
climate
change
scarcity.
Horticulturae,
Journal Year:
2024,
Volume and Issue:
10(1), P. 49 - 49
Published: Jan. 4, 2024
This
review
article
conducts
an
in-depth
analysis
of
the
role
next-generation
technologies
in
soilless
vegetable
production,
highlighting
their
groundbreaking
potential
to
revolutionize
yield,
efficiency,
and
sustainability.
These
technologies,
such
as
AI-driven
monitoring
systems
precision
farming
methods,
offer
unparalleled
accuracy
critical
variables
nutrient
concentrations
pH
levels.
However,
paper
also
addresses
multifaceted
challenges
that
hinder
widespread
adoption
these
technologies.
The
high
initial
investment
costs
pose
a
significant
barrier,
particularly
for
small-
medium-scale
farmers,
thereby
risking
creation
technological
divide
industry.
Additionally,
technical
complexity
demands
specialized
expertise,
potentially
exacerbating
knowledge
gaps
among
farmers.
Other
considerations
are
scrutinized,
including
data
privacy
concerns
job
displacement
due
automation.
Regulatory
challenges,
international
trade
regulations
policy
frameworks,
discussed,
they
may
need
revision
accommodate
new
concludes
by
emphasizing
while
sustainable
transformative
benefits,
broad
is
constrained
complex
interplay
financial,
technical,
regulatory,
social
factors.
Applied Sciences,
Journal Year:
2022,
Volume and Issue:
13(1), P. 14 - 14
Published: Dec. 20, 2022
This
article
presents
the
current
state-of-the-art
research
on
applying
artificial
intelligence
(AI)
technology
in
smart
greenhouses
to
optimize
crop
yields,
water,
and
fertilizer
use
efficiency,
reduce
pest
disease,
enhance
agricultural
sustainability.
The
key
technologies
of
interest
were
robotic
systems
for
pesticide
application,
irrigation,
harvesting,
bio-inspired
algorithms
automation
greenhouse
processes,
energy
management,
machine
path
planning
operation
UAVs
(unmanned
aerial
vehicles),
resolution
scheduling
problems,
image
signal
processing
disease
diagnosis.
Additionally,
review
investigated
cost
benefits
various
energy-management
AI-based
energy-saving
technologies,
integration
photovoltaics
dynamic
pricing
based
real-time
time-of-use
metrics,
LoRa,
Wi-Fi,
Bluetooth,
ZigBee,
mobile,
RFID
(radiofrequency
identification)
technologies.
established
that
commercially
viable
AI
agriculture
had
increased
exponentially.
For
example,
irrigation
soil
application
enabled
farmers
realize
higher
returns
investment
gross
above
cost,
resource
efficiency.
Similarly,
detection
techniques
led
early
diagnosis
powdery
mildew.
precise
robots
was
supported
by
light
imaging,
detection,
ranging
(LIDAR)
optical
electro-optical
cameras
place
traditional
GPS
(geographic
positioning
systems)
which
are
prone
errors.
However,
critical
challenges
remained
unresolved,
including
disparities
between
development
(R&D)
innovations
commercialization,
use,
tradeoff
accuracy
computational
speeds,
gaps
Global
North
South.
In
general,
value
this
is
it
surveys
literature
maturity
level
offers
a
picture
how
far
have
successfully
been
applied
what
can
be
done
their
usability.
Information Processing in Agriculture,
Journal Year:
2024,
Volume and Issue:
unknown
Published: April 1, 2024
Greenhouse
farming
is
considered
one
of
the
precision
and
sustainable
forms
smart
agriculture.
Although
greenhouse
gases
can
support
off-season
crops
inside
indoor
environment,
monitoring,
controlling,
managing
crop
parameters
at
farms
more
precisely
securely
necessary,
even
in
harsh
climate
regions.
The
evolving
Internet
Things
(IoT)
technologies,
including
sensors,
devices,
network
topologies,
big
data
analytics,
intelligent
decision-making,
are
thought
to
be
solution
for
automating
like
internal
atmosphere
control,
irrigation
growth
so
on.
This
paper
introduces
a
comprehensive
survey
recent
advances
IoT-based
farming.
We
summarize
related
review
articles.
classification
based
on
IoT
(smart
greenhouse,
hydroponics
vertical
farming)
introduced.
Also,
we
present
detailed
architecture
components
agriculture
applications
IoT,
physical
communication
protocols,
cloud/fog
computing
technologies.
also
farming,
tracking,
predicting.
Furthermore,
technical
resource
management
challenges
optimal
Moreover,
countries
already
applying
have
been
presented.
Lastly,
future
suggestions
Systems Science & Control Engineering,
Journal Year:
2024,
Volume and Issue:
12(1)
Published: Jan. 30, 2024
According
to
various
studies,
different
countries
have
climate
conditions
that
affect
the
quantity
and
quality
of
crop
production.
Farmers
want
use
novel
technologies
can
help
them
produce
crops
in
large
quantities
with
good
quality.
The
greenhouse
is
one
rapidly
growing
used
for
production
crops.
It
protects
from
changes
external
weather
and,
hence,
helps
good-quality
throughout
year.
This
work
proposes
a
deep
study
monitoring
control
environmental
parameters
also
analyses
communication
techniques,
relays,
sensors
controlling
parameters.
Also,
give
details
on
advantages
disadvantages
so
farmers
easily
understand
which
technology
most
suitable
their
greenhouse.
adopt
best-suited
techniques
green
houses
are
cost-friendly,
easy
use,
longer
life.
