Processes,
Journal Year:
2022,
Volume and Issue:
10(11), P. 2462 - 2462
Published: Nov. 21, 2022
Water
is
a
precious
resource
that
can
be
intelligently
managed.
Effective
water
usage
demands
computerized
home
supply
management
in
culture
where
tanks,
motors,
and
pumps
are
ubiquitous.
crucial
for
the
government
citizens
countries
like
Saudi
Arabia.
The
issue
providing
constant,
high-quality,
low-cost
supply.
This
study
introduces
smart
(IoT-SWM)
system
may
used
structures
do
not
have
access
to
constant
but
instead
stored
enormous
tanks
underneath.
GSM
module
collects
use
data
from
each
community
transmits
it
cloud,
analyzed.
A
grid
hybrid
application
uses
an
inspection
mode
identify
leaks
measure
resulting
height
differences
keep
track
of
tank’s
level.
automatically
deactivates
affected
section
after
detecting
any
shortage
or
malfunction
mechanism,
such
as
broken
valves,
pumps,
pipes.
It
sends
emergency
signal
building
managers.
monitors
essential
quality
elements
regularly,
if
they
fall
below
acceptable
levels,
warning
signals
management,
who
take
action.
Over
extended
period,
monitored
recorded
all
metrics.
restarts
when
pump
has
been
reconnected
alert.
As
result,
suggested
excellent
replacement
Arabia’s
mechanically
operated
system.
EarthArXiv (California Digital Library),
Journal Year:
2020,
Volume and Issue:
unknown
Published: June 17, 2020
The
global
volume
of
digital
data
is
expected
to
reach
175
zettabytes
by
2025.
volume,
variety,
and
velocity
water-related
are
increasing
due
large-scale
sensor
networks
increased
attention
topics
such
as
disaster
response,
water
resources
management,
climate
change.
Combined
with
the
growing
availability
computational
popularity
deep
learning,
these
transformed
into
actionable
practical
knowledge,
revolutionizing
industry.
In
this
article,
a
systematic
review
literature
conducted
identify
existing
research
which
incorporates
learning
methods
in
sector,
regard
monitoring,
governance
communication
resources.
study
provides
comprehensive
state-of-the-art
approaches
used
industry
for
generation,
prediction,
enhancement,
classification
tasks,
serves
guide
how
utilize
available
future
challenges.
Key
issues
challenges
application
techniques
domain
discussed,
including
ethics
technologies
decision-making
management
governance.
Finally,
we
provide
recommendations
directions
models
hydrology
International Journal of River Basin Management,
Journal Year:
2023,
Volume and Issue:
23(1), P. 1 - 13
Published: May 24, 2023
Floods
affect
over
2.2
billion
people
worldwide,
and
their
frequency
is
increasing
at
an
alarming
rate
compared
to
other
disasters.
Presidential
disaster
declarations
have
issued
increasingly
almost
every
year
in
Iowa
for
the
past
30
years,
indicating
that
state
on
rise
of
flood
risk.
A
multi-disciplinary
approach
required,
which
underlying
hydrologic
processes
cause
floods
are
closely
linked
with
watershed-level
socio-economic
functions
using
effective
collaboration
tools
ensure
community
participation
co-production
mitigation
plans
while
paying
attention
socio-environmental
justice
principles.
Considering
existing
limitations
needs,
we
conducted
a
risk
assessment
by
utilizing
geophysical
datasets
case
study
Cedar
Rapids,
Iowa.
Flood
outputs
generated
based
three
main
groups:
geophysical-based
risk,
socioeconomic
combined
An
extensive
literature
review
determine
pairwise
comparison
matrices
parameters
used
analytical
hierarchy
process
(AHP)
fuzzy
AHP
methods.
Our
results
indicate
high-
very-high-risk
susceptibility
zones
primarily
located
central
urban
areas
lower
elevations,
regardless
method
type
(AHP
or
FAHP).
According
overall
results,
large
area
Rapids
consists
medium
level
according
map
method.
The
show
high
very
high-risk
16%
studied
region,
medium,
low
low-risk
correspond
84%.
Besides,
nearly
40%
population
lives
zones.
Journal of Hydroinformatics,
Journal Year:
2023,
Volume and Issue:
25(2), P. 552 - 566
Published: March 1, 2023
Abstract
The
temporal
and
spatial
resolution
of
rainfall
data
is
crucial
for
environmental
modeling
studies
in
which
its
variability
space
time
considered
as
a
primary
factor.
Rainfall
products
from
different
remote
sensing
instruments
(e.g.,
radar,
satellite)
have
space-time
resolutions
because
the
differences
their
capabilities
post-processing
methods.
In
this
study,
we
developed
deep-learning
approach
that
augments
with
increased
to
complement
relatively
lower-resolution
products.
We
propose
neural
network
architecture
based
on
Convolutional
Neural
Networks
(CNNs),
namely
TempNet,
improve
radar-based
compare
proposed
model
an
optical
flow-based
interpolation
method
CNN-baseline
model.
While
TempNet
achieves
mean
absolute
error
0.332
mm/h,
comparison
methods
achieve
0.35
0.341,
respectively.
methodology
presented
study
could
be
used
enhancing
maps
better
imputation
missing
frames
sequences
2D
support
hydrological
flood
forecasting
studies.
Journal of Hydroinformatics,
Journal Year:
2023,
Volume and Issue:
25(4), P. 1171 - 1187
Published: July 1, 2023
Abstract
We
introduce
HydroLang
Markup
Language
(HL-ML),
a
programming
interface
that
uses
markup
language
to
perform
environmental
analyses
using
the
hydrological
and
framework
HydroLang.
The
software
acts
as
self-contained
HTML
tags
powered
by
web
component
specification
generate
simple
computations
enable
data
analysis,
visualization,
manipulation
via
semantically
driven
instructions.
It
enables
researchers
professionals
use
retrieve,
analyze,
visualize,
map
with
basic
skills.
components'
adaptability
users
run
analytical
routines
complex
on
client
side.
present
implementation
details
of
approach,
custom
elements
in
technologies
academia,
share
sample
usages
demonstrate
simplicity
human-readable
computer-executable
framework.
Water Research,
Journal Year:
2023,
Volume and Issue:
244, P. 120505 - 120505
Published: Aug. 19, 2023
Effective
management
of
stormwater
systems
is
necessary
for
protection
both
the
built
and
natural
environments.
However,
facing
multiple,
growing
challenges,
including
climate
change,
ageing
infrastructure,
population
growth,
urbanisation,
environmental
concerns,
regulatory
institutional
changes
public
awareness.
While
potential
'smart',
internet-of-things
enabled
to
address
these
challenges
increasingly
being
recognised,
with
considerable
evidence
in
literature
benefits
more
data-driven
approaches,
implementation
date
remains
low.
This
paper,
therefore,
provides
a
comprehensive
review
barriers
adoption
smarter
practices
that
require
addressing,
roadmap
real
world
application.
Barriers
related
all
elements
management,
from
asset
sensing
data
analytics
online
optimisation,
are
identified.
Technical
discussed
include
availability
reliability
technologies,
technological
physical
limitations,
decision
making,
uncertainty
security.
rapidly
reducing
there
increasing
academic
efficacy
smart
technologies.
socio-economic
remain
significant
challenge,
issues
such
as
trust
lack
confidence,
resistance
expense,
knowledge
guidance
reviewed.
A
'smart
wheel'
flexible
iterative
approach
implementing
functionality
also
presented.
Whilst
acting
roadmap,
this
aims
facilitate
structured
methodology
overcoming
benchmarking
progress,
may
be
used
explore
trade-offs
relationships
between
differing
levels
each
constituent
technologies
system.
Journal of Hydroinformatics,
Journal Year:
2023,
Volume and Issue:
25(2), P. 163 - 173
Published: Feb. 15, 2023
Abstract
Accurate,
vast,
and
real-time
coverage
of
water
level
monitoring
is
crucial
for
the
advancement
environmental
research,
specifically
in
areas
climate
change,
distribution,
natural
disaster
preparedness
management.
The
current
state
network
requires
an
immediate
solution
to
produce
low-cost
accurate
measurement
sensors.
This
research
presents
a
novel
methodology
intelligent
stream
stage
measurement,
creating
distinct
opportunity
low-cost,
camera-based
embedded
system
that
will
measure
levels
share
surveys
support
decision-making.
It
implemented
as
stand-alone
device
utilizes
registry
structures
points
interest
(POI)
along
with
core
modules
application
logic:
(1)
deep-learning
powered
segmentation;
(2)
visual
servoing;
(3)
POI
geolocation
computation.
implementation
relies
on
Raspberry-Pi
motorized
camera
automated
measurements
supported
by
Proportional–Integral–Derivative
controller
multiprocessing.
For
future
work,
involvement
supports
further
use
cases
such
recognizing
objects
(e.g.,
debris,
trees,
humans,
boats)
surface.
Additionally,
method
shown
can
be
made
into
Progressive
Web
Application
(PWA)
used
smartphones
allow
crowdsourced
citizen
science
applications
monitoring.
