Copositive matrix

In mathematics, specifically linear algebra, a real symmetric matrix $A$ is copositive if

x^{\top }Ax\geq 0

for every nonnegative vector $x\geq 0$ (where the inequalities should be understood coordinate-wise). Some authors do not require $A$ to be symmetric.^[1] The collection of all copositive matrices is a proper cone;^[2] it includes as a subset the collection of real positive-definite matrices.

Copositive matrices find applications in economics, operations research, and statistics.

Examples

Every real positive-semidefinite matrix is copositive by definition.
Every symmetric nonnegative matrix is copositive. This includes the zero matrix.
The exchange matrix ${\bigl (}{\begin{smallmatrix}0&1\\1&0\end{smallmatrix}}{\bigr )}$ is copositive but not positive-semidefinite.

Properties

It is easy to see that the sum of two copositive matrices is a copositive matrix. More generally, any conical combination of copositive matrices is copositive.

Let $A$ be a copositive matrix. Then we have that

every principal submatrix of $A$ is copositive as well. In particular, the entries on the main diagonal must be nonnegative.
the spectral radius $ρ(A)$ is an eigenvalue of $A$ .^[3]

Every copositive matrix of order less than 5 can be expressed as the sum of a positive semidefinite matrix and a nonnegative matrix.^[4] A counterexample for order 5 is given by a copositive matrix known as Horn-matrix:^[5] ${\begin{pmatrix}1&-1&1&1&-1\\-1&1&-1&1&1\\1&-1&1&-1&1\\1&1&-1&1&-1\\-1&1&1&-1&1\end{pmatrix}}$

Characterization

The class of copositive matrices can be characterized using principal submatrices. One such characterization is due to Wilfred Kaplan:^[6]

A real symmetric matrix $A$ is copositive if and only if every principal submatrix $B$ of $A$ has no eigenvector $v > 0$ with associated eigenvalue $λ < 0$ .

Several other characterizations are presented in a survey by Ikramov,^[3] including:

Assume that all the off-diagonal entries of a real symmetric matrix A are nonpositive. Then A is copositive if and only if it is positive semidefinite.

The problem of deciding whether a matrix is copositive is co-NP-complete.^[7]

References

Berman, Abraham; Robert J. Plemmons (1979). Nonnegative Matrices in the Mathematical Sciences. Academic Press. ISBN 0-12-092250-9.

^ Changqing Xu. "Copositive matrix". MathWorld. Retrieved 23 September 2024.
^ Copositive matrix at PlanetMath.
^ ^a ^b Ikramov, Kh. D.; Savel'eva, N. V. (1 January 2000). "Conditionally definite matrices". Journal of Mathematical Sciences. 98 (1): 1–50. doi:10.1007/BF02355379. ISSN 1573-8795.
^ Diananda, P. H. (January 1962). "On non-negative forms in real variables some or all of which are non-negative". Mathematical Proceedings of the Cambridge Philosophical Society. 58 (1): 17–25. doi:10.1017/S0305004100036185. ISSN 1469-8064.
^ Dür, Mirjam (2010). "Copositive Programming – a Survey" (PDF). In Diehl, Moritz; Glineur, Francois; Jarlebring, Elias; Michiels, Wim (eds.). Recent Advances in Optimization and its Applications in Engineering. Berlin, Heidelberg: Springer. pp. 3–20. doi:10.1007/978-3-642-12598-0_1. ISBN 978-3-642-12598-0.
^ Kaplan, Wilfred (1 July 2000). "A test for copositive matrices". Linear Algebra and Its Applications. 313 (1): 203–206. doi:10.1016/S0024-3795(00)00138-5. ISSN 0024-3795.
^ Schweighofer, Markus; Vargas, Luis Felipe (19 October 2023). "Sum-of-squares certificates for copositivity via test states". arXiv:2310.12853 [math.AG].

[1] Changqing Xu. "Copositive matrix". MathWorld. Retrieved 23 September 2024.

[2] Copositive matrix at PlanetMath.

[Ikramov2000-3] Ikramov, Kh. D.; Savel'eva, N. V. (1 January 2000). "Conditionally definite matrices". Journal of Mathematical Sciences. 98 (1): 1–50. doi:10.1007/BF02355379. ISSN 1573-8795.

[4] Diananda, P. H. (January 1962). "On non-negative forms in real variables some or all of which are non-negative". Mathematical Proceedings of the Cambridge Philosophical Society. 58 (1): 17–25. doi:10.1017/S0305004100036185. ISSN 1469-8064.

[5] Dür, Mirjam (2010). "Copositive Programming – a Survey" (PDF). In Diehl, Moritz; Glineur, Francois; Jarlebring, Elias; Michiels, Wim (eds.). Recent Advances in Optimization and its Applications in Engineering. Berlin, Heidelberg: Springer. pp. 3–20. doi:10.1007/978-3-642-12598-0_1. ISBN 978-3-642-12598-0.

[6] Kaplan, Wilfred (1 July 2000). "A test for copositive matrices". Linear Algebra and Its Applications. 313 (1): 203–206. doi:10.1016/S0024-3795(00)00138-5. ISSN 0024-3795.

[7] Schweighofer, Markus; Vargas, Luis Felipe (19 October 2023). "Sum-of-squares certificates for copositivity via test states". arXiv:2310.12853 [math.AG].

[1]

[2]

[3]

[4]

[5]

[6]

[7]

v t e Matrix classes
Explicitly constrained entries	Alternant Anti-diagonal Anti-Hermitian Anti-symmetric Arrowhead Band Bidiagonal Bisymmetric Block-diagonal Block Block tridiagonal Boolean Cauchy Centrosymmetric Conference Complex Hadamard Copositive Diagonally dominant Diagonal Discrete Fourier Transform Elementary Equivalent Frobenius Generalized permutation Hadamard Hankel Hermitian Hessenberg Hollow Integer Logical Matrix unit Metzler Moore Nonnegative Pentadiagonal Permutation Persymmetric Polynomial Quaternionic Signature Skew-Hermitian Skew-symmetric Skyline Sparse Sylvester Symmetric Toeplitz Triangular Tridiagonal Vandermonde Walsh Z
Constant	Exchange Hilbert Identity Lehmer Of ones Pascal Pauli Redheffer Shift Zero
Conditions on eigenvalues or eigenvectors	Companion Convergent Defective Definite Diagonalizable Hurwitz Positive-definite Stieltjes
Satisfying conditions on products or inverses	Congruent Idempotent or Projection Invertible Involutory Nilpotent Normal Orthogonal Unimodular Unipotent Unitary Totally unimodular Weighing
With specific applications	Adjugate Alternating sign Augmented Bézout Carleman Cartan Circulant Cofactor Commutation Confusion Coxeter Distance Duplication and elimination Euclidean distance Fundamental (linear differential equation) Generator Gram Hessian Householder Jacobian Moment Payoff Pick Random Rotation Seifert Shear Similarity Symplectic Totally positive Transformation
Used in statistics	Centering Correlation Covariance Design Doubly stochastic Fisher information Hat Precision Stochastic Transition
Used in graph theory	Adjacency Biadjacency Degree Edmonds Incidence Laplacian Seidel adjacency Tutte
Used in science and engineering	Cabibbo–Kobayashi–Maskawa Density Fundamental (computer vision) Fuzzy associative Gamma Gell-Mann Hamiltonian Irregular Overlap S State transition Substitution Z (chemistry)
Related terms	Jordan normal form Linear independence Matrix exponential Matrix representation of conic sections Perfect matrix Pseudoinverse Row echelon form Wronskian
Mathematics portal List of matrices Category:Matrices