This
article
aims
to
consolidate
information
pertinent
the
possibilities
of
generating
energy
from
sound
waves,
using
materials
derived
research
for
a
future
academic
dissertation
by
same
author.
The
combination
this
data
speculative
design
perspective
allows
us
develop
conceptual
principles
products
and
services
that
promote
use
an
abundant
clean
source,
which
still
presents
unique
challenges
be
integrated
into
significant
capacity.
Sound
production,
in
general,
is
found
natural
environments
also
manufactured
objects,
presenting
possibility
obtaining
through
means
not
even
imagined
until
then.
As
inspiration,
human
auditory
system
some
its
functions
are
discussed
here,
such
as
conversion
mechanical
signals
electrical
ones,
helping
elaborate
understanding
listening
providing
creative
opportunities
formulating
solutions
terms
generation.
Also
investigating
phenomenon
piezoelectricity,
Wireless
Sensor
Networks,
production
charge
synthetic
materials,
opens
up
space
new
ways
manipulating
biological
properties.
conclusions
presented
here
approaches,
context,
conditions
implementing
frequencies
waves
sources.
Advances in computational intelligence and robotics book series,
Год журнала:
2024,
Номер
unknown, С. 117 - 140
Опубликована: Апрель 1, 2024
The
highly
intelligent
internet
of
things
(IoT)
and
wireless
sensor
technologies
are
set
to
reshape
the
directions
safe
parking
transportation
in
dynamic
field
urban
development.
Sustainable
effective
solutions
critical
as
cities
struggle
with
effects
growing
populations
rising
urbanization.
Sustainability
is
key
future
development
electric
mobility
environmentally
friendly
choices
facilitated
by
IoT.
By
reducing
negative
systems
on
environment,
this
path
hopes
promote
a
greener
more
sustainable
environment.
So,
tackling
issues
privacy
cybersecurity,
trajectory
seeks
increase
confidence
accuracy
data.
This
chapter
explores
how
these
developing
they
will
affect
solve
difficulties
contemporary
life,
focus
put
security
measures,
real-time
data
analytics
practices.
Advances in environmental engineering and green technologies book series,
Год журнала:
2025,
Номер
unknown, С. 395 - 420
Опубликована: Фев. 21, 2025
Harnessing
raw
energy
from
the
sea
for
sustainable
urban
living,
driven
by
Artificial
Intelligence
(AI)
and
Machine
Learning
(ML),
through
wave
tidal
conversion
could
be
a
paradigm-shifting
breakthrough.
These
renewable
sources
are
able
to
utilize
non-stop
movement
of
oceans
tides,
which
will
work
in
decreasing
carbon
footprints
cities.
Through
AI
ML
algorithms,
capture,
storage,
distribution
process
is
made
way
efficient
predicting
patterns
or
enhancing
grid
integration.
Together,
these
technologies
provide
fast
online
decisions,
dependability
scalability
units.
AI-based
solutions
waves
conversion,
therefore,
can
become
key
signaling
point
addressing
an
ever-increasing
demand
most
modern-day
infrastructural
platforms
as
well
means
forces
global
climate
change
mitigation
consider
their
toward
providing
smarter
greener
futures
our
communities.
Practice, progress, and proficiency in sustainability,
Год журнала:
2024,
Номер
unknown, С. 274 - 298
Опубликована: Июль 26, 2024
Artificial
intelligence
(AI)
and
machine
learning
(ML)
are
becoming
essential
tools
for
increasing
the
efficiency
sustainability
of
this
renewable
energy
source
ocean
industry
has
made
significant
strides
in
recent
years.
The
early
stages
industry's
research
development
when
AI
ML
first
started
to
emerge
space.
development,
management,
upkeep
maritime
systems
have
all
changed
as
a
result
these
innovations.
An
enormous,
unexplored
resource
that
potential
make
an
important
contribution
world's
mix
is
wave
energy.
In
order
maximize
efficacy
conversion,
chapter
explores
incorporation
artificial
internet
things
(IoT)
technologies.
It
looks
at
technologies'
ability
support
clean
solutions
build
sustainable
environment
particularly
context
smart
cities.
This
investigation
is
part
of
a
topical
situation
where
wireless
equipment
gradually
being
used
for
energy
transfer,
particularly
autonomous
systems
and
the
use
decarbonized
en-ergies.
A
characteristic
example
linked
to
substitution
thermal
engine
vehicles
by
electric
(EVs)
equipped
with
storage
batteries.
response
was
considered
in
an
ecological
context
reducing
air
pollution
defending
plane-tary
biodiversity,
which
are
currently
vital.
These
EVs
ultimately
operate
thanks
charging
their
batteries
when
stationary
or
running.
By
changing
long-established
means
transport
that
have
become
threat
it
necessary
ensure
innovative
re-placement
solutions
protect
this
biodiversity.
In
addition,
construction
power
transfer
(WPT)
battery
chargers
these
must
offer
optimal
ecology
clean
saving.
such
context,
two
concepts
One
Health
(OH)
Responsible
Attitude
(RA)
will
find
place
design
control
WPT
tools
EVs.
contribution
aims
il-lustrate
analyze
roles
green
non-wasteful
OH
RA
approaches
de-sign
embedded
smart
city
(SC)
environment.
paper,
first
introduced.
The
EV
then
examined.
biological
effects
on
living
tissues
due
electromagnetic
field
(EMF)
radia-tion
analyzed.
phenomena
equations
governing
EMF
radiation
exposed.
SC
af-terward
protection
against
unsafe
environment
consequently
explored.
analyses
followed
paper
supported
examples
lit-erature.
