Advances in environmental engineering and green technologies book series,
Journal Year:
2023,
Volume and Issue:
unknown, P. 22 - 41
Published: Nov. 24, 2023
This
review
provides
a
comprehensive
analysis
of
the
use
remote
sensing
techniques
in
monitoring
ecohydrological
events.
Ecohydrology
is
an
interdisciplinary
field
that
explores
interactions
between
ecosystems
and
water
cycle.
Remote
sensing,
with
its
ability
to
capture
large-scale
continuous
observations,
has
proven
be
invaluable
tool
understanding
these
complex
interactions.
In
this
chapter,
authors
discuss
various
platforms,
sensors,
employed
monitor
events,
including
vegetation
dynamics,
availability,
land-use
changes.
The
also
examine
challenges
future
prospects
field,
highlighting
potential
for
advancing
our
processes
through
sensing.
Sensors,
Journal Year:
2024,
Volume and Issue:
24(16), P. 5084 - 5084
Published: Aug. 6, 2024
The
global
increase
in
wildfires
due
to
climate
change
highlights
the
need
for
accurate
wildfire
mapping.
This
study
performs
a
proof
of
concept
on
usefulness
SuperDove
imagery
To
address
this
topic,
we
present
an
automatic
methodology
that
combines
use
various
vegetation
indices
with
clustering
algorithms
(bisecting
k-means
and
k-means)
analyze
images
before
after
fires,
aim
improving
precision
burned
area
severity
assessments.
results
demonstrate
potential
using
PlanetScope
sensor,
showing
effectively
delineates
areas
classifies
them
by
level,
comparison
data
from
Copernicus
Emergency
Management
Service
(CEMS).
Thus,
satellite
sensor
constellation
fire
monitoring
is
highlighted,
despite
its
limitations
regarding
radiometric
distortion
absence
Short-Wave
Infrared
(SWIR)
bands,
suggesting
could
contribute
better
management
strategies.
Advances in environmental engineering and green technologies book series,
Journal Year:
2023,
Volume and Issue:
unknown, P. 22 - 41
Published: Nov. 24, 2023
This
review
provides
a
comprehensive
analysis
of
the
use
remote
sensing
techniques
in
monitoring
ecohydrological
events.
Ecohydrology
is
an
interdisciplinary
field
that
explores
interactions
between
ecosystems
and
water
cycle.
Remote
sensing,
with
its
ability
to
capture
large-scale
continuous
observations,
has
proven
be
invaluable
tool
understanding
these
complex
interactions.
In
this
chapter,
authors
discuss
various
platforms,
sensors,
employed
monitor
events,
including
vegetation
dynamics,
availability,
land-use
changes.
The
also
examine
challenges
future
prospects
field,
highlighting
potential
for
advancing
our
processes
through
sensing.
