Research Square (Research Square),
Год журнала:
2022,
Номер
unknown
Опубликована: Июнь 10, 2022
Abstract
Background:
During
the
COVID-19
pandemic,
which
emerged
in
2020,
many
patients
were
treated
isolation
wards
because
of
high
infectivity
and
long
incubation
period
COVID-19.
Therefore,
monitoring
systems
have
become
critical
to
patient
care
safeguard
medical
professional
safety.
Objective:
The
user
interface
is
very
important
surveillance
system;
therefore,
we
use
web
technology
develop
a
system
that
can
create
an
based
on
needs.
When
scene
needs
be
changed,
location
changed
at
any
time,
effectively
reducing
costs
time
required,
so
achieve
timely
appropriate
goals
treatment.
Methods:
ZigBee
was
employed
for
intensive
units
(ICUs).
Unlike
conventional
GUIs,
proposed
GUI
enables
various
aspects
patient,
modified
according
A
simulated
ICU
environment
designed
test
effectiveness
system.
nodes
set
up
positions
consistent
with
actual
clinical
environments
measure
required
switch
between
scenes
or
targets
GUI.
Results:
low-cost
construct
ZigBee-simulated
graphical
interfaces
demand
this
study.
overcome
limitations
design
methods
interfaces.
Conclusion:
This
used
simultaneously
monitor
basic
physiological
data
numerous
patients,
enabling
nursing
professionals
instantly
determine
status
provide
treatments.
applied
remote
after
official
adoption.
Inventions,
Год журнала:
2023,
Номер
8(2), С. 50 - 50
Опубликована: Фев. 22, 2023
During
the
COVID-19
pandemic,
which
emerged
in
2020,
many
patients
were
treated
isolation
wards
because
of
high
infectivity
and
long
incubation
period
COVID-19.
Therefore,
monitoring
systems
have
become
critical
to
patient
care
safeguard
medical
professional
safety.
The
user
interface
is
very
important
surveillance
system;
therefore,
we
used
web
technology
develop
a
system
that
can
create
an
based
on
needs.
When
scene
needs
be
changed,
location
changed
at
any
time,
effectively
reducing
costs
time
required,
so
achieve
timely
appropriate
goals
treatment.
ZigBee
was
employed
for
intensive
units
(ICUs).
Unlike
conventional
GUIs,
proposed
GUI
enables
various
aspects
patient,
modified
according
A
simulated
ICU
environment
designed
test
effectiveness
system.
nodes
set
up
positions
consistent
with
actual
clinical
environments
measure
required
switch
between
scenes
or
targets
GUI.
novel
construct
ZigBee-simulated
graphical
interfaces
demand
this
study.
locations
time.
deploy
developed
study
4
min
average,
much
shorter
than
methods
(131
min).
overcome
limitations
design
interfaces.
This
simultaneously
monitor
basic
physiological
data
numerous
patients,
enabling
nursing
professionals
instantly
determine
status
provide
treatments.
applied
remote
after
official
adoption.
E3S Web of Conferences,
Год журнала:
2023,
Номер
396, С. 01074 - 01074
Опубликована: Янв. 1, 2023
Environmental
monitoring
is
a
prerequisite
to
evaluate,
control,
and
optimize
indoor
environmental
quality.
Compared
stationary
sensing
that
deploys
sensors
at
fixed
locations,
mobile
using
an
automated
moving
robot
can
actively
take
measurements
locations
of
interests,
which
provides
more
flexible
efficient
way
achieve
high-granularity
agile
monitoring.
Studies
have
been
conducted
design
implement
algorithms,
however,
deploy
on
hardware
test
the
algorithm
in
real
world
usually
expensive
challenging.
In
this
study,
we
introduced
virtual
testbed,
AlphaMobileSensing
be
used
test,
benchmark
algorithms
easily
efficiently.
Using
spatio-temporal
(ST)
interpolation
for
its
robustness
thermal
field
reconstruction.
Two
factors,
path,
initial
position,
were
considered,
corresponding
reconstruction
results
compared.
The
show
ST
extract
similar
global
trend
dynamic
regardless
different
paths
predictions
local
variations
are
sensitive
these
two
factors.
Research Square (Research Square),
Год журнала:
2022,
Номер
unknown
Опубликована: Июнь 10, 2022
Abstract
Background:
During
the
COVID-19
pandemic,
which
emerged
in
2020,
many
patients
were
treated
isolation
wards
because
of
high
infectivity
and
long
incubation
period
COVID-19.
Therefore,
monitoring
systems
have
become
critical
to
patient
care
safeguard
medical
professional
safety.
Objective:
The
user
interface
is
very
important
surveillance
system;
therefore,
we
use
web
technology
develop
a
system
that
can
create
an
based
on
needs.
When
scene
needs
be
changed,
location
changed
at
any
time,
effectively
reducing
costs
time
required,
so
achieve
timely
appropriate
goals
treatment.
Methods:
ZigBee
was
employed
for
intensive
units
(ICUs).
Unlike
conventional
GUIs,
proposed
GUI
enables
various
aspects
patient,
modified
according
A
simulated
ICU
environment
designed
test
effectiveness
system.
nodes
set
up
positions
consistent
with
actual
clinical
environments
measure
required
switch
between
scenes
or
targets
GUI.
Results:
low-cost
construct
ZigBee-simulated
graphical
interfaces
demand
this
study.
overcome
limitations
design
methods
interfaces.
Conclusion:
This
used
simultaneously
monitor
basic
physiological
data
numerous
patients,
enabling
nursing
professionals
instantly
determine
status
provide
treatments.
applied
remote
after
official
adoption.