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inputoutputanalyse

Inputoutputanalyse, commonly known as input-output analysis, is a quantitative economic technique for studying the interdependencies between sectors of an economy. By constructing an input-output table, it records how the output of each sector serves as an input to every other sector, allowing researchers to trace how final demand propagates through the production system. It is used to assess economic multipliers, forecast the impact of changes in demand or technology, and analyze the structure of production and trade within an economy or a region.

The core of the method is the technology coefficient matrix A, where each element aij represents the

Applications include estimating the economic impact of policy changes, technological shifts, infrastructure programs, and trade moves;

amount
of
input
from
sector
i
required
to
produce
one
unit
of
output
in
sector
j.
With
the
total
output
vector
x
and
final
demand
vector
y,
the
relationship
is
x
=
(I
−
A)⁻¹
y,
where
I
is
the
identity
matrix.
The
matrix
(I
−
A)⁻¹,
known
as
the
Leontief
inverse,
quantifies
both
direct
and
indirect
effects
of
final
demand
changes
on
sectoral
outputs.
The
framework
can
be
extended
to
multi-region
settings
and
to
environmental
applications,
yielding
regional
input-output
analysis
and
environmental
input-output
analysis
(EIOA),
which
link
economic
activity
to
resource
use
and
emissions.
evaluating
regional
development,
supply-chain
resilience,
and
environmental
footprints.
Limitations
arise
from
requiring
fixed
input
coefficients,
linear
production
relationships,
and
static,
snapshot
data;
results
can
be
sensitive
to
sector
classifications
and
data
quality.
Despite
these
caveats,
input-outputanalyse
remains
a
foundational
tool
for
descriptive
and
prospective
analysis
in
economics
and
regional
planning.