Smart
livestock
farming
leverages
technology
to
boost
production
and
meet
food
demand
sustainably.
This
study
delves
into
smart
technologies
in
animal
production,
covering
opportunities,
challenges,
solutions.
agriculture
employs
modern
enhance
efficiency,
sustainability,
welfare
farming.
It
includes
remote
monitoring,
GPS-based
care,
robotic
milking,
health
collars,
predictive
disease
control,
other
innovations
achieve
these
goals.
While
holds
great
promise,
it
does
face
challenges
related
cost,
data
management,
connectivity.
To
address
potential
solutions
include
sensing,
integration,
farmer
education.
offers
opportunities
for
increased
improved
welfare,
enhanced
environmental
conservation.
A
well-planned
approach
is
crucial
maximize
the
benefits
of
while
ensuring
its
long-term
sustainability.
confirms
growing
adoption
with
support
sustainable
development
goals
deliver
such
as
productivity
resource
efficiency.
fully
realize
ensure
sustainability
farming,
essential
cost
education
challenges.
Therefore,
this
recommends
promoting
a
positive
outlook
among
stakeholders
embracing
farm
performance.
Electronics,
Journal Year:
2023,
Volume and Issue:
12(12), P. 2651 - 2651
Published: June 13, 2023
Throughout
human
history,
agriculture
has
undergone
a
series
of
progressive
transformations
based
on
ever-evolving
technologies
in
an
effort
to
increase
productivity
and
profitability.
Over
the
years,
farming
methods
have
evolved
significantly,
progressing
from
Agriculture
1.0,
which
relied
primitive
tools,
2.0,
incorporated
machinery
advanced
practices,
subsequently
3.0,
emphasized
mechanization
employed
intelligent
technology
enhance
levels.
To
further
automate
agricultural
while
minimizing
inputs
pollutants,
new
approach
management
concepts
fourth
industrial
revolution
is
being
embraced
gradually.
This
referred
as
“Agriculture
4.0”
mainly
implemented
through
use
Internet
Things
(IoT)
technologies,
enabling
remote
control
sensors
actuators
efficient
collection
transfer
data.
In
addition,
fueled
by
such
robotics,
artificial
intelligence,
quantum
sensing,
four-dimensional
communication,
form
smart
agriculture,
called
5.0,”
now
emerging.
5.0
can
exploit
growing
5G
network
infrastructure
basis.
However,
only
6G-IoT
networks
will
be
able
offer
technological
advances
that
allow
full
expansion
5.0,
inferred
relevant
scientific
literature
research.
this
article,
we
first
introduce
scope
well
key
features
leveraged
much-anticipated
communication
systems.
We
then
highlight
importance
influence
these
developing
advancement
conclude
with
discussion
future
challenges
opportunities.
Sensors,
Journal Year:
2023,
Volume and Issue:
23(2), P. 969 - 969
Published: Jan. 14, 2023
Mobile
applications
have
rapidly
grown
over
the
past
few
decades
to
offer
futuristic
applications,
such
as
autonomous
vehicles,
smart
farming,
and
city.
Such
require
ubiquitous,
real-time,
secure
communications
deliver
services
quickly.
Toward
this
aim,
sixth-generation
(6G)
wireless
technology
offers
superior
performance
with
high
reliability,
enhanced
transmission
rate,
low
latency.
However,
managing
resources
of
aforementioned
is
highly
complex
in
precarious
network.
An
adversary
can
perform
various
network-related
attacks
(i.e.,
data
injection
or
modification)
jeopardize
regular
operation
applications.
Therefore,
incorporating
blockchain
application
be
a
prominent
solution
tackle
security,
data-sharing
privacy
concerns.
Motivated
by
same,
we
presented
case
study
on
public
safety
that
utilizes
essential
characteristics
artificial
intelligence
(AI),
blockchain,
6G
network
handle
integrity
crime
data.
The
assessed
using
parameters
considering
scalability,
packet
drop
ratio,
training
accuracy.
Lastly,
explored
different
research
challenges
adopting
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(9), P. 3507 - 3507
Published: April 23, 2024
The
agricultural
industry
has
undergone
several
significant
changes
over
the
past
few
centuries,
influenced
by
industrial
revolutions
that
have
occurred.
These
progressed
from
Indigenous
agriculture
to
mechanized
farming
and
current
precision
agriculture.
While
model
increased
output,
it
also
faced
various
challenges
in
recent
years.
Industry
5.0
is
expected
a
impact
on
sector
potentially
lead
fifth
revolution.
In
this
paper,
we
examine
motivation
behind
4.0
5.0,
review
phases
of
these
occurred
so
far,
offer
suggestions
for
future.
We
provide
an
overview
concepts
as
well
Agriculture
discuss
smart
strategies
are
being
implemented
different
countries
advance
sectors.
Additionally,
focus
potential
applications
technologies
research
associated
with
them.
Our
goal
professionals
new
opportunities.
Smart Agricultural Technology,
Journal Year:
2024,
Volume and Issue:
7, P. 100412 - 100412
Published: Feb. 15, 2024
The
adoption
of
Fourth
Industrial
Revolution
(4IR)
technologies
has
revolutionized
agricultural
practices
worldwide.
However,
their
application
in
the
context
sub-Saharan
Africa
remains
a
critical
challenge.
This
study
presents
systematic
review
that
investigates
potential
4IR
smart
irrigation.
Sub-Saharan
faces
multiple
challenges,
exacerbated
by
climate
change,
water
scarcity,
and
inefficient
irrigation
practices.
need
for
sustainable,
water-efficient,
data-driven
systems
is
urgent
to
ensure
food
security
economic
development
region.
addresses
crucial
knowledge
gap
assessing
constraints,
opportunities,
prospects
implementing
Africa.
A
methodology
was
employed,
utilizing
reputable
databases
including
Web
Science,
Google
Scholar,
Science
Direct,
Institute
Electrical
Electronics
Engineers
(IEEE)
Xplore,
PubMed.
comprehensive
search
strategy
designed
identify
peer-reviewed
articles,
conference
papers,
reports
related
Internet
Things,
Artificial
Intelligence,
Unmanned
Aerial
Vehicles,
Big
Data,
Blockchain
technology
Preferred
Reporting
Items
Systematic
Reviews
Meta-Analyses
(PRISMA)
approach
used
arrive
at
95
articles
included
this
research.
reveals
promising
trends
integration
Data
technology,
drones
are
widely
These
have
facilitated
real
time
monitoring
soil
moisture
weather
conditions,
precision
scheduling,
allocation
optimization,
rapid
data
collection,
insights
crop
use
transparency
trust
management
among
others.
While
evident,
challenges
limited
infrastructure,
access
technical
expertise
pose
significant
barriers
Additionally,
high
initial
costs
associated
with
these
can
impede
widespread
adoption.
highlights
leverage
existing
mobile
phone
penetration
IoT
collaborative
partnerships,
innovative
financing
models
overcome
financial
constraints.
Capacity-building
initiatives
transfer
empower
local
communities
embrace
technologies.
future
relies
on
policy
support,
investments,
diffusion
strategies.
It
imperative
create
an
enabling
environment
fosters
innovation
unique
needs
Collaboration
between
governments,
academia,
industry,
international
organizations
catalyze
transformative
impact
technologies,
ultimately
enhancing
sustainability
security.
Comprehensive Reviews in Food Science and Food Safety,
Journal Year:
2024,
Volume and Issue:
23(6)
Published: Oct. 22, 2024
Abstract
Although
several
food‐related
fields
have
yet
to
fully
grasp
the
speed
and
breadth
of
fourth
industrial
revolution
(also
known
as
Industry
4.0),
growing
literature
from
other
sectors
shows
that
5.0
(referring
fifth
revolution)
is
already
underway.
Food
4.0
has
been
characterized
by
fusion
physical,
digital,
biological
advances
in
food
science
technology,
whereas
future
could
be
seen
a
more
holistic,
multidisciplinary,
multidimensional
approach.
This
review
will
focus
on
identifying
potential
enabling
technologies
harnessed
shape
coming
years.
We
state‐of‐the‐art
studies
use
innovative
various
agriculture
applications
over
last
5
In
addition,
opportunities
challenges
highlighted,
directions
conclusions
drawn.
Preliminary
evidence
suggests
outcome
an
evolutionary
process
not
revolution,
often
claimed.
Our
results
show
regenerative
and/or
conversational
artificial
intelligence,
Internet
Everything,
miniaturized
nanosensors,
4D
printing
beyond,
cobots
advanced
drones,
edge
computing,
redactable
blockchain,
metaverse
immersive
techniques,
cyber‐physical
systems,
digital
twins,
sixth‐generation
wireless
beyond
are
likely
among
main
driving
5.0.
framework,
vision,
value
becoming
popular
research
topics
academic
fields,
agri‐food
sector
just
started
embrace
some
aspects
dimensions
Ruminants,
Journal Year:
2024,
Volume and Issue:
4(1), P. 22 - 46
Published: Jan. 26, 2024
Smart
livestock
farming
utilizes
technology
to
enhance
production
and
meet
food
demand
sustainably.
This
study
employs
surveys
case
studies
gather
data
information,
subsequently
analyzing
it
identify
opportunities
challenges.
The
proposed
solutions
encompass
remote
sensing,
integration,
farmer
education,
stakeholder
engagement.
research
delves
into
smart
technologies
in
animal
production,
addressing
opportunities,
challenges,
potential
solutions.
agriculture
modern
improve
efficiency,
sustainability,
welfare
farming.
includes
monitoring,
GPS-based
care,
robotic
milking,
health
collars,
predictive
disease
control,
other
innovations.
Despite
the
great
promise
of
there
are
existing
challenges
such
as
cost,
management,
connectivity.
To
overcome
these
involve
education.
provides
for
increased
improved
welfare,
enhanced
environmental
conservation.
A
well-planned
approach
is
crucial
maximize
benefits
while
ensuring
its
long-term
sustainability.
confirms
growing
adoption
with
support
sustainable
development
goals
deliver
productivity
resource
efficiency.
fully
realize
ensure
sustainability
farming,
cost
education
essential.
Therefore,
this
recommends
promoting
a
positive
outlook
among
stakeholders
embracing
farm
performance.
Electronics,
Journal Year:
2024,
Volume and Issue:
13(8), P. 1480 - 1480
Published: April 13, 2024
Smart
farming
has
emerged
as
a
promising
approach
to
address
the
agriculture
industry’s
significant
contribution
greenhouse
gas
(GHG)
emissions.
However,
effectiveness
of
current
smart
practices
in
mitigating
GHG
emissions
remains
matter
ongoing
debate.
This
review
paper
provides
an
in-depth
examination
state
farming,
highlighting
limitations
existing
reducing
and
introducing
innovative
strategies
that
leverage
advanced
capabilities
6G-enabled
IoT
(6G-IoT).
By
enabling
precise
resource
management,
facilitating
emission
source
identification
mitigation,
enhancing
reduction
techniques,
6G-IoT
integration
offers
transformative
solution
for
managing
agriculture.
while
focuses
on
technological
applications
immediate
efficiency
gains,
it
also
serves
crucial
component
sustainable
by
providing
tools
necessary
long-term
environmental
supervision
sustainability.
As
result,
this
study
contributes
insights
guiding
future
advancements
particularly
context
6G-IoT,
develop
more
effective
mitigation
applications,
promoting
agricultural
future.
Journal of Human Earth and Future,
Journal Year:
2024,
Volume and Issue:
5(2), P. 187 - 204
Published: June 1, 2024
The
main
objective
of
this
study
was
to
inform
evidence-based
financial
strategies
and
policy
directions
for
Uzbekistan’s
ambitious
greenhouse
agriculture
expansion
by
quantifying
how
integration
with
agricultural
data
platforms
affects
key
operational
metrics
like
crop
productivity,
expenditures,
profitability,
technical
efficiency.
core
methodological
approach
integrated
econometric
modeling
techniques
(production,
cost,
profit
functions)
envelopment
analysis
conduct
comprehensive
techno-economic
assessments
across
a
representative
sample
58
facilities
using
primary
collected
on
yields,
costs,
technology
deployment
levels,
digital
platform
accessibility.
A
finding
that
involvement
in
supply
chain
coordination
corresponded
36%
increase
coupled
19%
reduction
expenses,
29%
improvement
22%
boost
optimized
efficiency
scores
relative
conventional
practices
after
controlling
adoption
other
factors.
This
novel
contribution
provides
quantifiable
evidence
the
synergistic
sustainability,
climate
resilience
dividends
unlocked
aligning
physical
infrastructure
upgrades
virtual
enhancements
around
visibility
network
overcome
constraints
facing
smallholder
operations.
interdisciplinary
outlines
an
roadmap
smart
through
investments
transparency
tools,
ecosystems,
workforce
training.
Doi:
10.28991/HEF-2024-05-02-04
Full
Text:
PDF
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(15), P. 6533 - 6533
Published: July 30, 2024
Wireless
communication
has
revolutionized
the
evolution
of
humankind.
The
rapid
growth
and
development
mobile
created
an
ecosystem
better
than
what
been
before.
However,
issues
such
as
ample
energy
consumption
resulting
carbon
emissions,
a
lack
proper
disposal
mechanisms
for
large
amounts
electronic
waste,
recycling
materials
interrupt
growth.
When
world
is
waiting
implementation
6G
technology,
it
mandatory
to
resolve
these
sustainability
technology.
In
this
review,
we
present
superiority
over
previous
generations
accompanied
by
that
cause
extensive
damage
environment.
To
mitigate
adverse
effect,
lifecycle
analysis
wireless
technology
from
production
disposal,
focusing
on
surrounding
consumption,
environmental
impact.
This
study
explains
intricacies
parts,
toxic
compounds,
dangers
incorrect
techniques.
It
also
investigates
specific
manufacturing
processes
network
infrastructures
require
considerable
energy.
We
quantitative
evaluation
in
detail.
addition,
comprehensive
strategy
insights
make
sustainable.
Furthermore,
suggest
ecological
policy
all
stakeholders
6G.
political
commercial
implications
As
process
continues,
show
impact
fragmentation
standardization,
which
helps
improve
sustainability.
Finally,
conclude
while
existing
research
made
significant
advances
6G,
there
need
correct
techniques
refine
key
government
policies
managing
e-waste.
New
cooling
technologies
renewable
sources
must
be
adopted
reduce
current
greenhouse
emission
200
g
CO2
2.5
kWh
per
GB
networks.