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hermevander(x, deg)

Returns the pseudo-Vandermonde matrix of degree :None:None:`deg` and sample points x. The pseudo-Vandermonde matrix is defined by

$$V[..., i] = He_i(x),$$

where :None:None:`0 <= i <= deg`. The leading indices of :None:None:`V` index the elements of x and the last index is the degree of the HermiteE polynomial.

If :None:None:`c` is a 1-D array of coefficients of length :None:None:`n + 1` and :None:None:`V` is the array V = hermevander(x, n) , then np.dot(V, c) and hermeval(x, c) are the same up to roundoff. This equivalence is useful both for least squares fitting and for the evaluation of a large number of HermiteE series of the same degree and sample points.

Parameters

x : array_like

Array of points. The dtype is converted to float64 or complex128 depending on whether any of the elements are complex. If x is scalar it is converted to a 1-D array.

deg : int

Degree of the resulting matrix.

Returns

vander : ndarray

The pseudo-Vandermonde matrix. The shape of the returned matrix is x.shape + (deg + 1,) , where The last index is the degree of the corresponding HermiteE polynomial. The dtype will be the same as the converted x.

Pseudo-Vandermonde matrix of given degree.

Examples

>>> from numpy.polynomial.hermite_e import hermevander
... x = np.array([-1, 0, 1])
... hermevander(x, 3) array([[ 1., -1., 0., 2.], [ 1., 0., -1., -0.], [ 1., 1., 0., -2.]])
See :

Back References

The following pages refer to to this document either explicitly or contain code examples using this.

numpy.polynomial.hermite_e.hermevander3d numpy.polynomial.hermite_e.hermevander2d numpy.polynomial.hermite_e.hermefit

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GitHub : /numpy/polynomial/hermite_e.py#1099
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