In linear algebra, a square nonnegative matrix of order is said to be productive, or to be a Leontief matrix, if there exists a nonnegative column matrix such as is a positive matrix.
History
editThe concept of productive matrix was developed by the economist Wassily Leontief (Nobel Prize in Economics in 1973) in order to model and analyze the relations between the different sectors of an economy.[1] The interdependency linkages between the latter can be examined by the input-output model with empirical data.
Explicit definition
editThe matrix is productive if and only if and such as .
Here denotes the set of r×c matrices of real numbers, whereas and indicates a positive and a nonnegative matrix, respectively.
Properties
editThe following properties are proven e.g. in the textbook (Michel 1984).[2]
Characterization
editTheorem A nonnegative matrix is productive if and only if is invertible with a nonnegative inverse, where denotes the identity matrix.
Proof
"If" :
- Let be invertible with a nonnegative inverse,
- Let be an arbitrary column matrix with .
- Then the matrix is nonnegative since it is the product of two nonnegative matrices.
- Moreover, .
- Therefore is productive.
"Only if" :
- Let be productive, let such that .
- The proof proceeds by reductio ad absurdum.
- First, assume for contradiction is singular.
- The endomorphism canonically associated with can not be injective by singularity of the matrix.
- Thus some non-zero column matrix exists such that .
- The matrix has the same properties as , therefore we can choose as an element of the kernel with at least one positive entry.
- Hence is nonnegative and reached with at least one value .
- By definition of and of , we can infer that:
- , using that by construction.
- Thus , using that by definition of .
- This contradicts and , hence is necessarily invertible.
- Second, assume for contradiction is invertible but with at least one negative entry in its inverse.
- Hence such that there is at least one negative entry in .
- Then is positive and reached with at least one value .
- By definition of and of , we can infer that:
- , using that by construction
- using that by definition of .
- Thus , contradicting .
- Therefore is necessarily nonnegative.
Transposition
editProposition The transpose of a productive matrix is productive.
Proof
- Let a productive matrix.
- Then exists and is nonnegative.
- Yet
- Hence is invertible with a nonnegative inverse.
- Therefore is productive.
Application
editWith a matrix approach of the input-output model, the consumption matrix is productive if it is economically viable and if the latter and the demand vector are nonnegative.
References
edit- ^ Kim Minju, Leontief Input-Output Model (Application of Linear Algebra to Economics) Archived 2014-12-15 at the Wayback Machine
- ^ Philippe Michel, "9.2 Matrices productives", Cours de Mathématiques pour Economistes, Édition Economica, 1984