SSRN Electronic Journal,
Journal Year:
2023,
Volume and Issue:
unknown
Published: Jan. 1, 2023
The
convergence
of
4D,
5D,
and
6D
printing
technologies
with
the
Architecture,
Engineering,
Construction
(AEC)
sector
has
ushered
in
an
era
unparalleled
innovation
efficiency.
This
study
delves
into
diverse
applications,
obstacles,
forthcoming
advancements
these
cutting-edge
within
AEC
industry.
4D
printing,
marked
by
materials
that
can
self-transform
or
assemble
over
time,
revolutionized
architectural
design
enabling
dynamic
structures
respond
to
environmental
stimuli.
5D
seamlessly
integrates
cost
estimation
fabrication
process,
ensuring
real-time
project
budgeting
management.
Additionally,
incorporates
sustainability
data,
providing
architects
engineers
insights
long-term
impact
their
designs.
These
applications
collectively
enhance
industry's
capacity
create
are
sustainable,
cost-effective,
adaptable.
Despite
promising
challenges
persist.
Material
constraints,
scalability
production,
need
for
standardized
processes
present
significant
obstacles.
Furthermore,
integrating
intricate
data
streams
demands
robust
computational
algorithms
efficient
management
systems.
Ethical
concerns
surrounding
intellectual
property,
security,
also
require
careful
consideration.
To
surmount
challenges,
ongoing
research
focuses
on
advancing
material
science,
innovative
techniques,
development
intelligent
algorithms.
Collaboration
among
interdisciplinary
teams,
including
architects,
engineers,
computer
scientists,
experts,
is
crucial
unlocking
full
potential
technologies.
integration
artificial
intelligence
machine
learning
holds
promise
streamlining
optimizing
usage,
enhancing
predictive
modeling.
approach
paves
way
a
more
sustainable
Embracing
essential
navigate
complexities
modern
architecture,
resilient
built
environment
future
generations.
Discover Sustainability,
Journal Year:
2024,
Volume and Issue:
5(1)
Published: Dec. 4, 2024
Abstract
This
research
explores
the
contribution
of
Blockchain
Technology
and
Industry
5.0
in
driving
sustainability
within
Bangladeshi
Ready-Made
Garments
(RMG)
industry,
with
a
focus
on
alignment
key
Sustainable
Development
Goals
(SDGs).
The
study
employs
Interpretive
Structural
Modeling
(ISM)
fuzzy
Decision-Making
Trial
Evaluation
Laboratory
(DEMATEL)
methods
to
identify
analyze
14
critical
synergies
that
can
drive
sustainability.
ISM
analysis
categorizes
into
independent,
dependent,
linkage
variables,
providing
insights
their
roles
significance
system.
Fuzzy
DEMATEL
further
refines
this
understanding
by
evaluating
direct
indirect
relationships
among
synergies.
Key
findings
reveal
importance
such
as
reverse
logistics
recycling,
supply
chain
collaboration
&
visibility
ethical
practices
contributes
offering
detailed
how
synergy
between
technology
enhance
RMG
actionable
technological
transformation
dynamics
support
global
targets.
2022 9th International Conference on Computing for Sustainable Global Development (INDIACom),
Journal Year:
2024,
Volume and Issue:
unknown, P. 820 - 826
Published: Feb. 28, 2024
The
global
pharmaceutical
industry
faces
a
pressing
need
to
prioritize
sustainability
in
its
supply
chain
as
it
holds
the
potential
significantly
influence
profitability
and
growth.
Leveraging
Industry
5.0
technologies
can
help
enhance
chain.
Despite
evident
benefits,
organisations
tend
be
hesitant
adopt
these
due
various
reasons.
This
study
aims
identify
barriers
adoption
Pharmaceutical
Supply
Chain
strengthen
explore
inter-relationships
among
barriers.
Through
an
extensive
literature
review
followed
by
interviews
with
experts,
this
research
identifies
ten
key
PSC.
Employing
DEMATEL
approach,
explores
Notably,
'Lack
of
standardization
fair
benchmarking
practices',
'Insufficient
or
weak
IT
infrastructure'
'Risk
data
sharing'
emerge
critical
causal
elimination
three
remove
significant
number
other
PSC,
thereby
fostering
sustainability.
findings
paper
could
support
organizations,
government
bodies
associations
formulating
policies
for
ultimately
enhancing
practices
industry.
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(22), P. 9954 - 9954
Published: Nov. 15, 2024
Because
Industry
4.0
is
not
a
better
solution
to
the
problems
of
circular
economy
development
process,
European
Union
proposed
5.0
as
supplement
4.0.
However,
presently,
no
relevant
research
exists
on
promotion
under
5.0,
and
limited
understanding
this
process
fundamental
obstacle
for
enterprises
pursue
digitalization
sustainable
operations.
This
study
addresses
knowledge
gap
by
developing
roadmap
explaining
use
drivers
support
promote
transformation
economy.
first
screens
literature
determines
11
5.0.
Secondly,
basis,
fuzzy
explanatory
structure
model
these
promoting
constructed.
Finally,
strategic
constructed
The
results
reveal
that
key
factors
driving
are
complementary,
among
which
quantitative
criteria
indicators
most
critical
present
at
bottom
map.
Value
chain
integration
into
business
complex
drivers.
can
explain
effects
various
order
required
transformation.
resulting
management
mindset
expected
assist
manufacturers,
industrialists,
academia,
governments
in
providing
services,
thus
forming
guideline
driven
SSRN Electronic Journal,
Journal Year:
2023,
Volume and Issue:
unknown
Published: Jan. 1, 2023
The
convergence
of
4D,
5D,
and
6D
printing
technologies
with
the
Architecture,
Engineering,
Construction
(AEC)
sector
has
ushered
in
an
era
unparalleled
innovation
efficiency.
This
study
delves
into
diverse
applications,
obstacles,
forthcoming
advancements
these
cutting-edge
within
AEC
industry.
4D
printing,
marked
by
materials
that
can
self-transform
or
assemble
over
time,
revolutionized
architectural
design
enabling
dynamic
structures
respond
to
environmental
stimuli.
5D
seamlessly
integrates
cost
estimation
fabrication
process,
ensuring
real-time
project
budgeting
management.
Additionally,
incorporates
sustainability
data,
providing
architects
engineers
insights
long-term
impact
their
designs.
These
applications
collectively
enhance
industry's
capacity
create
are
sustainable,
cost-effective,
adaptable.
Despite
promising
challenges
persist.
Material
constraints,
scalability
production,
need
for
standardized
processes
present
significant
obstacles.
Furthermore,
integrating
intricate
data
streams
demands
robust
computational
algorithms
efficient
management
systems.
Ethical
concerns
surrounding
intellectual
property,
security,
also
require
careful
consideration.
To
surmount
challenges,
ongoing
research
focuses
on
advancing
material
science,
innovative
techniques,
development
intelligent
algorithms.
Collaboration
among
interdisciplinary
teams,
including
architects,
engineers,
computer
scientists,
experts,
is
crucial
unlocking
full
potential
technologies.
integration
artificial
intelligence
machine
learning
holds
promise
streamlining
optimizing
usage,
enhancing
predictive
modeling.
approach
paves
way
a
more
sustainable
Embracing
essential
navigate
complexities
modern
architecture,
resilient
built
environment
future
generations.
