public final class PolynomialsUtils extends Object
Modifier and Type | Method and Description |
---|---|
static PolynomialFunction |
createChebyshevPolynomial(int degree)
Create a Chebyshev polynomial of the first kind.
|
static PolynomialFunction |
createHermitePolynomial(int degree)
Create a Hermite polynomial.
|
static PolynomialFunction |
createJacobiPolynomial(int degree,
int v,
int w)
Create a Jacobi polynomial.
|
static PolynomialFunction |
createLaguerrePolynomial(int degree)
Create a Laguerre polynomial.
|
static PolynomialFunction |
createLegendrePolynomial(int degree)
Create a Legendre polynomial.
|
static double[] |
shift(double[] coefficients,
double shift)
Compute the coefficients of the polynomial
Ps(x) whose values at point x will be
the same as the those from the
original polynomial P(x) when computed at x + shift . |
public static PolynomialFunction createChebyshevPolynomial(int degree)
Chebyshev polynomials of the first kind are orthogonal polynomials. They can be defined by the following recurrence relations:
T0(X) = 1 T1(X) = X Tk+1(X) = 2X Tk(X) - Tk-1(X)
degree
- degree of the polynomialpublic static PolynomialFunction createHermitePolynomial(int degree)
Hermite polynomials are orthogonal polynomials. They can be defined by the following recurrence relations:
H0(X) = 1 H1(X) = 2X Hk+1(X) = 2X Hk(X) - 2k Hk-1(X)
degree
- degree of the polynomialpublic static PolynomialFunction createLaguerrePolynomial(int degree)
Laguerre polynomials are orthogonal polynomials. They can be defined by the following recurrence relations:
L0(X) = 1 L1(X) = 1 - X (k+1) Lk+1(X) = (2k + 1 - X) Lk(X) - k Lk-1(X)
degree
- degree of the polynomialpublic static PolynomialFunction createLegendrePolynomial(int degree)
Legendre polynomials are orthogonal polynomials. They can be defined by the following recurrence relations:
P0(X) = 1 P1(X) = X (k+1) Pk+1(X) = (2k+1) X Pk(X) - k Pk-1(X)
degree
- degree of the polynomialpublic static PolynomialFunction createJacobiPolynomial(int degree, int v, int w)
Jacobi polynomials are orthogonal polynomials. They can be defined by the following recurrence relations:
P0vw(X) = 1 P-1vw(X) = 0 2k(k + v + w)(2k + v + w - 2) Pkvw(X) = (2k + v + w - 1)[(2k + v + w)(2k + v + w - 2) X + v2 - w2] Pk-1vw(X) - 2(k + v - 1)(k + w - 1)(2k + v + w) Pk-2vw(X)
degree
- degree of the polynomialv
- first exponentw
- second exponentpublic static double[] shift(double[] coefficients, double shift)
Ps(x)
whose values at point x
will be
the same as the those from the
original polynomial P(x)
when computed at x + shift
.
Thus, if P(x) = Σi ai xi
,
then
Ps(x) |
= Σi bi xi |
= Σi ai (x + shift)i |
coefficients
- Coefficients of the original polynomial.shift
- Shift value.bi
of the shifted
polynomial.Copyright © 2019 CNES. All rights reserved.