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Matrix operation generalizing exponentiation of scalar numbers
In mathematics, the matrix exponential is a matrix function on square matrices analogous to the ordinary exponential function. It is used to solve systems
Matrix_exponential
Form of a matrix
an orthogonal matrix, it admits an exponential form. Correspondingly, the matrix S writes as exponential of a skew-symmetric block matrix Σ {\displaystyle
Skew-symmetric_matrix
Mathematical operation on invertible matrices
mathematics, a logarithm of a matrix is another matrix such that the matrix exponential of the latter matrix equals the original matrix. It is thus a generalization
Logarithm_of_a_matrix
Topics referred to by the same term
to exponentiation, including: Exponential function, also: Matrix exponential, the matrix analogue to the above Exponential decay, decrease at a rate proportional
Exponential
Absolutely continuous distribution with rational Laplace–Stieltjes transform
In probability theory, the matrix-exponential distribution is an absolutely continuous distribution with rational Laplace–Stieltjes transform. They were
Matrix-exponential distribution
Matrix-exponential_distribution
Triangular array of the binomial coefficients
Pascal's triangle in terms of the matrix exponential can be given: Pascal's triangle is the exponential of the matrix which has the sequence 1, 2, 3, 4
Pascal's_triangle
Map from a Lie algebra to its Lie group
is the identity matrix. Thus, in the setting of matrix Lie groups, the exponential map is the restriction of the matrix exponential to the Lie algebra
Exponential_map_(Lie_theory)
Type of mathematical equation
Cayley–Hamilton theorem and Vandermonde-type matrices, this formal matrix exponential solution may be reduced to a simple form. Below, this solution is
Matrix_differential_equation
Type of matrix
rotation matrix or differential rotation matrix is a matrix representing an infinitely small rotation. While a rotation matrix is an orthogonal matrix R T
Infinitesimal_rotation_matrix
determine the product of exponentials for a kinematic chain, with the goal of parameterizing an affine transformation matrix between the base and tool
Product of exponentials formula
Product_of_exponentials_formula
Infinite sum
squaring method for the matrix exponential revisited. SIAM review, 51(4), 747-764. How and How Not to Compute the Exponential of a Matrix Nicolas Bourbaki (1989)
Series_(mathematics)
Real square matrix whose columns and rows are orthogonal unit vectors
orthogonal matrix group consists of skew-symmetric matrices. Going the other direction, the matrix exponential of any skew-symmetric matrix is an orthogonal
Orthogonal_matrix
Array of numbers
can be used to compute the matrix exponential eA, a need frequently arising in solving linear differential equations, matrix logarithms and square roots
Matrix_(mathematics)
Formula in Lie group theory
exponential map is a map from the Lie algebra g of a Lie group G into G. In case G is a matrix Lie group, the exponential map reduces to the matrix exponential
Derivative of the exponential map
Derivative_of_the_exponential_map
Matrix representing a Euclidean rotation
Lie group is the exponential map, which is defined using the standard matrix exponential series for eA For any skew-symmetric matrix A, exp(A) is always
Rotation_matrix
Sum of elements on the main diagonal
eigenvalues), one can derive a relation between the trace function, the matrix exponential function, and the determinant: det ( exp ( A ) ) = exp ( tr
Trace_(linear_algebra)
Matrices similar to diagonal matrices
\end{aligned}}} This approach can be generalized to matrix exponential and other matrix functions that can be defined as power series. For example
Diagonalizable_matrix
Group that is also a differentiable manifold with group operations that are smooth
then the exponential map takes the Lie algebra of G {\displaystyle G} into G {\displaystyle G} ; thus, we have an exponential map for all matrix groups
Lie_group
Complex matrix whose conjugate transpose equals its inverse
written as U = eiH, where e indicates the matrix exponential, i is the imaginary unit, and H is a Hermitian matrix. For any nonnegative integer n, the set
Unitary_matrix
Mathematical matrix
satisfy ATJA = J. Thus, the matrix exponential of a Hamiltonian matrix is symplectic. However the logarithm of a symplectic matrix is not necessarily Hamiltonian
Hamiltonian_matrix
Mathematical function, denoted exp(x) or e^x
In mathematics, the exponential function is the unique real function which maps zero to one and has a derivative everywhere equal to its value. It is
Exponential_function
Function that maps matrices to matrices
defining a matrix function that maps square matrices with complex entries to square matrices of the same size. This is used for defining the exponential of a
Analytic_function_of_a_matrix
Formula of matrix exponentials
x and y are replaced with matrices A and B, and the exponential replaced with a matrix exponential, it is usually necessary for A and B to commute for
Lie_product_formula
Class of numerical methods
time 0 to a later time t {\displaystyle t} can be performed using matrix exponentials to define an integral equation for the exact solution: This is similar
Exponential_integrator
Vector formula for a rotation in space, given its axis
s o ( 3 ) {\displaystyle {\mathfrak {so}}(3)} ). In terms of the matrix exponential, R = exp ( θ K ) . {\displaystyle \mathbf {R} =\exp(\theta \mathbf
Rodrigues'_rotation_formula
Matrices important in quantum mechanics and the study of spin
the exponential itself is just 1, which makes it the generic group element of SU(2). A more abstract version of formula (2) for a general 2 × 2 matrix can
Pauli_matrices
Family of linear transformations
In the case of the Lorentz group, the exponential map is just the matrix exponential. Globally, the exponential map is not one-to-one, but in the case
Lorentz_transformation
Describes state evolution of a linear system
(LTI) systems, where the matrix A {\displaystyle \mathbf {A} } is constant, the state-transition matrix is the matrix exponential e A ( t − t 0 ) {\displaystyle
State-transition_matrix
Conversion of continuous functions into discrete counterparts
trickier due to the matrix exponential integral. It can, however, be computed by first constructing a matrix, and computing the exponential of it F = [ − A
Discretization
Matrix with every entry equal to one
idempotent. The matrix exponential of J is exp ( μ J ) = I + e μ n − 1 n J {\displaystyle \exp(\mu J)=I+{\frac {e^{\mu n}-1}{n}}J} The all-ones matrix arises
Matrix_of_ones
Infinite matrices with Pascal's triangle as elements
OEIS). A Pascal matrix can actually be constructed by taking the matrix exponential of a special subdiagonal or superdiagonal matrix. The example below
Pascal_matrix
exponential field Exponential formula Exponential function Exponential generating function Exponential-Golomb coding Exponential growth Exponential hierarchy
List_of_exponential_topics
Matrix decomposition
Furthermore, exp A {\displaystyle \exp {\mathbf {A} }} is the matrix exponential. Spectral matrices are matrices that possess distinct eigenvalues
Eigendecomposition of a matrix
Eigendecomposition_of_a_matrix
Matrix whose conjugate transpose is its negative (additive inverse)
\mathbf {y} } . If A {\displaystyle A} is skew-Hermitian, then the matrix exponential e A {\displaystyle e^{A}} is unitary. The space of skew-Hermitian
Skew-Hermitian_matrix
Mathematical function such that every output has at least one input
surjective (as its range is the set of positive real numbers). The matrix exponential is not surjective when seen as a map from the space of all n×n matrices
Surjective_function
Algebraic structure used in analysis
, one can recover the Lie group as the subgroup generated by the matrix exponential of elements of g {\displaystyle {\mathfrak {g}}} . (To be precise
Lie_algebra
Group of rotations in 3 dimensions
by linearity. Since SO(3) is a matrix Lie group, its exponential map is defined using the standard matrix exponential series, { exp : s o ( 3 ) → SO
3D_rotation_group
Degree of connectedness within a graph
of the graph's adjacency matrix gives the number of walks of length given by that power. Similarly, the matrix exponential is also closely related to
Centrality
Parameterization of a rotation into a unit vector and angle
when inverting the exponential map, that is, when finding a rotation vector that corresponds to a given rotation matrix. The exponential map is onto but
Axis–angle_representation
In mathematics, invariant of square matrices
square matrix. The determinant of a matrix A is commonly denoted det(A), det A, or |A|. Its value characterizes some properties of the matrix and the
Determinant
Mathematical model in nuclear physics
errors. Therefore, other methods such as numerical integration or the matrix exponential method are also in use. For example, for the simple case of a chain
Bateman_equation
Generalization of the one-dimensional normal distribution to higher dimensions
{\displaystyle 1\leq j\leq k} . The inverse of the covariance matrix is called the precision matrix, denoted by Q = Σ − 1 {\displaystyle {\boldsymbol {Q}}={\boldsymbol
Multivariate normal distribution
Multivariate_normal_distribution
of the Kreiss constant with respect to the left-half plane and the matrix exponential: K l h p ( A ) ≤ sup t ≥ 0 ‖ e t A ‖ ≤ e n K l h p ( A ) {\displaystyle
Kreiss_matrix_theorem
Generates a forecast of future values of a time series
Exponential smoothing or exponential moving average (EMA) is a rule of thumb technique for smoothing time series data using the exponential window function
Exponential_smoothing
Measure of relativistic velocity
spanned by the anti-diagonal unit matrix, showing that the rapidity is the coordinate on this Lie algebra. In matrix exponential notation, Λ(w) can be expressed
Rapidity
Block diagonal matrix of Jordan blocks
the mathematical discipline of matrix theory, a Jordan matrix, named after Camille Jordan, is a block diagonal matrix over a ring R (whose identities
Jordan_matrix
Mathematical function, inverse of an exponential function
logarithm. For example, the logarithm of a matrix is the (multi-valued) inverse function of the matrix exponential. Another example is the p-adic logarithm
Logarithm
Numerical integration scheme for Hamiltonian systems
{\displaystyle t} is given as a matrix exponential: Note the positivity of t D H {\displaystyle tD_{H}} in the matrix exponential. When the Hamiltonian has
Symplectic_integrator
Polynomial with a matrix as variable
theorem Matrix exponential Matrix function Horn & Johnson 1990, p. 36. Friedland, S.; Melman, A. (2020). "A note on Hermitian positive semidefinite matrix polynomials"
Matrix_polynomial
2021 film by Lana Wachowski
The Matrix Resurrections is a 2021 American science fiction action film co-produced and directed by Lana Wachowski, who co-wrote the screenplay with David
The_Matrix_Resurrections
Measure of covariance of components of a random vector
covariance matrix (also known as auto-covariance matrix, dispersion matrix, variance matrix, or variance–covariance matrix) is a square matrix giving the
Covariance_matrix
Estimate of time taken for running an algorithm
an exponential. In this sense, problems that have sub-exponential time algorithms are somewhat more tractable than those that only have exponential algorithms
Time_complexity
one from linear combinations of the others. Matrix exponential — defined by the exponential series. Matrix representation of conic sections Pseudoinverse
List_of_named_matrices
Formula in Lie theory
formula is frequently used in quantum field theory as well. Matrix exponential Logarithm of a matrix Lie product formula (Trotter product formula) Lie group–Lie
Baker–Campbell–Hausdorff formula
Baker–Campbell–Hausdorff_formula
Square matrix whose off-diagonal entries are nonnegative
as a Z-matrix is equivalent to a negated quasipositive matrix. The exponential of a Metzler (or quasipositive) matrix is a nonnegative matrix because
Metzler_matrix
Number with a real and an imaginary part
existence of eigendecomposition is a useful tool for computing matrix powers and matrix exponentials. Complex numbers often generalize concepts originally conceived
Complex_number
the identity matrix of size m {\displaystyle m} . Unlike other functions of matrix argument, such as the matrix exponential, which are matrix-valued, the
Hypergeometric function of a matrix argument
Hypergeometric_function_of_a_matrix_argument
Probability distribution
_{1}=\mu _{2}=0} and covariance matrix Σ {\displaystyle {\boldsymbol {\Sigma }}} . Independently simulate an exponential random variable W {\displaystyle
Multivariate Laplace distribution
Multivariate_Laplace_distribution
Study of matrices and their algebraic properties
matrix, unitary matrix Symmetric matrix, antisymmetric matrix Stochastic matrix Matrix polynomial Matrix exponential Some authors, e.g. Horn and Johnson
Matrix_analysis
Basic circuit in quantum computing
example Z X = i Y = − X Z . {\displaystyle ZX=iY=-XZ.} The matrix exponential of a Pauli matrix σ j {\displaystyle \sigma _{j}} is a rotation operator, often
Quantum_logic_gate
Branch of mathematical analysis
function theory. Functions such as square root of a matrix, matrix exponential, and logarithm of a matrix are basic examples of hypercomplex analysis. The
Hypercomplex_analysis
Generalisation of the exponential integral to non-commutative algebras
integral in the commutative algebras. In practice the ordered exponential is used in matrix and operator algebras. It is a kind of product integral, or
Ordered_exponential
continuous Bernoulli distribution is a one-parameter exponential family obtained from exponential tilting of the continuous uniform distribution. It provides
List of probability distributions
List_of_probability_distributions
Movement with a fixed point is rotation
z) associated with the matrix A. This shows that the rotation matrix and the axis–angle format are related by the exponential function. One can derive
Euler's_rotation_theorem
Ensemble of states at a constant temperature
exp() is the matrix exponential operator. The free energy F is determined by the probability normalization condition that the density matrix has a trace
Canonical_ensemble
Numerical method for differential equations
those based on rational Padé and Krylov subspaces approximations for exponential matrix are preferred. For this, a central role is playing by the expression
Local_linearization_method
Representation of the symmetry group of spacetime in special relativity
O(3; 1) are obtained by employing the Lie correspondence and the matrix exponential. The full finite-dimensional representation theory of the universal
Representation theory of the Lorentz group
Representation_theory_of_the_Lorentz_group
Family of probability distributions related to the normal distribution
In probability and statistics, an exponential family is a parametric set of probability distributions of a certain form, specified below. This special
Exponential_family
Mathematical operation on matrices
the abstract tensor product". We have the following formula for the matrix exponential, which is useful in some numerical evaluations. exp ( N ⊕ ¯ M )
Kronecker_product
Generalization of the exponential function
{\displaystyle \exp(At)} ). This notation is compatible with the notation for matrix exponentials, and for functions of an operator defined via functional calculus
C0-semigroup
Elementwise product of two matrices
this mechanism, it is possible to reserve * and ^ for matrix multiplication and matrix exponentials, respectively. The programming language Julia has similar
Hadamard_product_(matrices)
For a square matrix, the transpose of the cofactor matrix
classical adjoint adj(A) of a square matrix A is the transpose of its cofactor matrix. It is occasionally known as adjunct matrix, or "adjoint", though that normally
Adjugate_matrix
Stochastic process modeling random walk with friction
}}t}\operatorname {E} (\mathbf {x} _{0}).} These expressions make use of the matrix exponential. The process can also be described in terms of the probability density
Ornstein–Uhlenbeck_process
Probability concept
according to an exponential random variable and then move to a different state as specified by the probabilities of a stochastic matrix. An equivalent
Continuous-time_Markov_chain
Important functions in solving differential equations
power of the matrix X, and I being the identity matrix of appropriate dimensions. Equivalently, they can be defined using the matrix exponential along with
Trigonometric functions of matrices
Trigonometric_functions_of_matrices
Family of distributions that generalize the multivariate normal distribution
{\displaystyle \Sigma } is a positive definite matrix which is proportional to the covariance matrix if the latter exists. Examples include the following
Elliptical_distribution
Conserved physical quantity; rotational analogue of linear momentum
x_{i}{\frac {dx_{i}}{dt}}\right).} Since all rotations can be expressed as matrix exponential of skew-symmetric matrices, i.e. as R ( n ^ , θ ) = e M θ {\displaystyle
Angular_momentum
Exterior algebraic map taking tensors from p forms to n-p forms
rotations around the axis v {\displaystyle \mathbb {v} } are given by the matrix exponential exp ( t L v ) {\displaystyle \exp(tL_{\mathbf {v} })} . With respect
Hodge_star_operator
Probability distribution
}}\exp({S}x)\mathbf {S^{0}} ,} for all x > 0, where exp( · ) is the matrix exponential. It is usually assumed the probability of process starting in the
Phase-type_distribution
Machine learning technique useful for dimensionality reduction
The homogeneous Gaussian neighborhood function is replaced with the matrix exponential. Thus one can specify the orientation either in the map space or in
Self-organizing_map
Square matrices satisfy their characteristic equation
rotation matrix. Standard examples of such usage is the exponential map from the Lie algebra of a matrix Lie group into the group. It is given by a matrix exponential
Cayley–Hamilton_theorem
Statistics concept
{1}{2}}} are the exponential map and inverse exponential map, respectively, "exp" and "log" denote the ordinary matrix exponential and matrix logarithm, and
Estimation of covariance matrices
Estimation_of_covariance_matrices
Arithmetic operation
integer Mathematics portal Double exponential function – Exponential function of an exponential function Exponential decay – Decrease in value at a rate
Exponentiation
Pictorial representation of the behavior of subatomic particles
time-ordered product of operators. Dyson's formula expands the time-ordered matrix exponential into a perturbation series in the powers of the interaction Hamiltonian
Feynman_diagram
Mathematical description of fermions
exponential is the exponential map, in this case the matrix exponential defined by putting the matrix into the usual power series for the exponential
Dirac_spinor
Statistical ensemble of particles in thermodynamic equilibrium
exp is the matrix exponential operator. The grand potential Ω is determined by the probability normalization condition that the density matrix has a trace
Grand_canonical_ensemble
Polynomials in combinatorial mathematics
as BellY Maple as IncompleteBellB SageMath as bell_polynomial Bell matrix Exponential formula Comtet 1974. Cvijović 2011. Alexeev, Pologova & Alekseyev
Bell_polynomials
Mathematical term
{\displaystyle {\mathfrak {g}}} consists of matrices and the exponential map is the matrix exponential exp ( X ) = e X {\displaystyle \operatorname {exp} (X)=e^{X}}
Adjoint_representation
Exponentially decreasing bounds on tail distributions of random variables
an exponentially decreasing upper bound on the tail of a random variable based on its moment generating function. The minimum of all such exponential bounds
Chernoff_bound
Formula for the derivative of a matrix determinant
relation connecting the trace to the determinant of the associated matrix exponential: det e B = e tr ( B ) {\displaystyle \det e^{B}=e^{\operatorname
Jacobi's_formula
Technique in 3D computer graphics
recursive refinement process into a matrix exponential problem, which can be solved directly by means of matrix diagonalization. Catmull–Clark surfaces
Catmull–Clark subdivision surface
Catmull–Clark_subdivision_surface
Mathematical formulation of vector pairs used in physics (rigid body dynamics)
for the movement [T(t)] that has a constant twist matrix [S]. The solution is the matrix exponential [ T ( t ) ] = e [ S ] t . {\displaystyle [T(t)]=e^{[S]t}
Screw_theory
Technique for solving differential equations
parameters Differential equations Product rule Quotient rule Exact differential Matrix exponential Munkhammar, Joakim, "Integrating Factor", MathWorld.
Integrating_factor
Matrix with a multiplicative inverse
algebra, an invertible matrix (non-singular, non-degenerate or regular) is a square matrix that has an inverse. In other words, if a matrix is invertible, it
Invertible_matrix
extends the concept of a Markov arrival process, allowing for dependent matrix-exponential distributed inter-arrival times. The processes were first characterised
Rational_arrival_process
Model of changes in a sequence over evolutionary time
} where Qn is the matrix Q multiplied by itself enough times to give its nth power. If Q is diagonalizable, the matrix exponential can be computed directly:
Substitution_model
Unit of quantum information
_{a}} is the a'th Gell-Mann matrix, and Θ a {\displaystyle \Theta _{a}} is a real value. The Lie algebra of the matrix exponential is provided here. The same
Qutrit
Topics referred to by the same term
may also refer to: List of exponential topics Exponential function, a function of a certain form Matrix exponential, a matrix function on square matrices
Exponent_(disambiguation)
Mathematics optimization problem
Matrix chain multiplication (or the matrix chain ordering problem) is an optimization problem concerning the most efficient way to multiply a given sequence
Matrix_chain_multiplication
Quantum mechanical operator related to rotational symmetry
\left(-{\frac {i\phi J_{\hat {n}}}{\hbar }}\right)} where exp is matrix exponential. The existence of the generator is guaranteed by the Stone's theorem
Angular_momentum_operator
MATRIX EXPONENTIAL
MATRIX EXPONENTIAL
Male
English
Pet form of English Martin, MARTIE means "of/like Mars."
Female
Finnish
Pet form of Finnish Katariina, KATRI means "pure."
Female
German
Pet form of German Katarine, KATRIN means "pure."
Girl/Female
Biblical
Rain, prison.
Male
Hungarian
Czech and Hungarian form of Greek Patrikios, PATRIK means "patrician, of noble descent."
Male
French
 French form of Roman Latin Martinus, MARTIN means "of/like Mars." Compare with another form of Martin.
Male
Italian
Italian form of Hebrew Mattithyah, MATTIA means "gift of God."
Surname or Lastname
English (of Welsh origin)
English (of Welsh origin) : variant of Maddox.
Male
English
Pet form of English Matthew, MATTIE means "gift of God." Compare with feminine Mattie.
Girl/Female
Arabic, Australian, Basque, French, Latin
Lady; Feminine of Martin; Warlike
Girl/Female
Maori
The Maori form of April.
Female
English
French form of Latin Maria, MARIE means "obstinacy, rebelliousness" or "their rebellion."
Male
English
Anglicized form of Irish Gaelic MainchÃn, MANNIX means "little monk."
Female
English
Pet form of English Matilda, MATTIE means "mighty in battle." Compare with masculine Mattie.
Female
Finnish
Finnish form of Greek Maria, MAARIA means "obstinacy, rebelliousness" or "their rebellion."Â
Male
English
 English form of Roman Latin Martinus, MARTIN means "of/like Mars." Compare with another form of Martin.
Male
French
French and German form of Greek Mattathias, MATHIS means "gift of God."
Female
Finnish
Finnish form of Greek Margarites, MAARIT means "pearl."
Female
Welsh
Welsh form of Old French Caterine, CATRIN means "pure."
Female
English
English form of Latin Viatrix, BEATRIX means "voyager (through life)."
MATRIX EXPONENTIAL
MATRIX EXPONENTIAL
Boy/Male
Hindu, Indian, Traditional
Protected by Indra
Boy/Male
Hindu, Indian, Malayalam, Marathi, Sanskrit
Is Considered; Remembered
Girl/Female
Arabic, Muslim
Lover; Devoted; Friend; Beloved
Boy/Male
Indian
Pious, Righteous
Girl/Female
Tamil
Suparna | ஸà¯à®ªà®°à¯à®£à®¾
Leafy, Having beautiful leaves, Wings
Boy/Male
Hindu, Indian
Protector of the Conch
Boy/Male
Gujarati, Hindu, Indian, Kannada, Malayalam, Marathi
Excellent One
Boy/Male
English
Noble or bright.
Surname or Lastname
English
English : patronymic from Hodgen.
Boy/Male
Sikh
One who attains the gurus shelter, Refuge of the victor, Protected
MATRIX EXPONENTIAL
MATRIX EXPONENTIAL
MATRIX EXPONENTIAL
MATRIX EXPONENTIAL
MATRIX EXPONENTIAL
n.
The cavity in which anything is formed, and which gives it shape; a die; a mold, as for the face of a type.
a.
Of or pertaining to the meter as a standard of measurement; of or pertaining to the decimal system of measurement of which a meter is the unit; as, the metric system; a metric measurement.
n.
The martin.
pl.
of Matrix
n.
Hence, that which gives form or origin to anything
n.
A rectangular arrangement of symbols in rows and columns. The symbols may express quantities or operations.
v. i.
The mineral substance which incloses a vein; a matrix; a gangue.
v. t.
The white fibrous matter forming the matrix from which fungi.
n.
The womb.
n.
A genus of swallows including the purple martin. See Martin.
n.
A mold; a matrix.
n.
The earthy or stony substance in which metallic ores or crystallized minerals are found; the gangue.
n.
See Matrix.
n.
The five simple colors, black, white, blue, red, and yellow, of which all the rest are composed.
n.
The lifeless portion of tissue, either animal or vegetable, situated between the cells; the intercellular substance.
n.
In type founding and forging, an impression or matrix, formed by a punch drift.
n.
A housekeeper; esp., a woman who manages the domestic economy of a public instution; a head nurse in a hospital; as, the matron of a school or hospital.
a.
Of or pertaining to the Maoris or to their language.
pl.
of Maori