Zernike Polynomial Coefficients for a given Wavefront using Matrix Inversion in Matlab

Versión 1.0.0.0 (2,14 KB) por Christopher Wilcox

Calculation of Zernike Polynomial Coefficients for a given Wavefront using Matrix Inversion

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Represent a wavefront as a sum of Zernike polynomials using a matrix inversion.
This function attempts to solve the a_i's in equation, phi(rho,theta) = SUM(a_i * Z_i(rho,theta), i=1 to M),
where the Z_i(rho,theta)'s are the Zernike polynomials from the zernfun.m file, phi is the wavefront to be represented as a sum of Zernike polynomials, the a_i's are the Zernike coefficients, and M is the number of Zernike polynomials to use.
Input: phi - Phase to be represented as a sum of Zernike polynomials that must be an nXn array (square)
(optional) M - Number of Zernike polynomials to use (Default = 12)
Output: a - Zernike coefficients (a_i's) as a vector Note: zernfun.m is required for use with this file. It is available here: http://www.mathworks.com/matlabcentral/fileexchange/7687

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Christopher Wilcox (2024). Zernike Polynomial Coefficients for a given Wavefront using Matrix Inversion in Matlab (https://www.mathworks.com/matlabcentral/fileexchange/27072-zernike-polynomial-coefficients-for-a-given-wavefront-using-matrix-inversion-in-matlab), MATLAB Central File Exchange. Recuperado 26 julio, 2024.

Compatibilidad con la versión de MATLAB

Se creó con R2007b

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Inspirado por: Zernike polynomials

Inspiración para: zernike3

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zernike_coeffs(phi, M)

Versión	Publicado	Notas de la versión
1.0.0.0	24 mar 2010		Descargar