📐 Orthogonal polynomials in all shapes and sizes.

A library for calculating the Associated Legendre polynomials

Golang implementation of the NOAA World Magnetic Model

Legendre polynomials and associated Legendre polynomials computed using 3-term recursions

A Python module to compute multidimensional arrays of evaluated (orthogonal) functions.

Orthogonal polynomials for optics analysis

C++ functions which evaluate Legendre polynomials

R을 이용한 경제 시계열 데이터 분석 / GARCH, Legendre models

Developing software that calculates Legendre differential equations and exports the results to an Excel spreadsheet.

An idea for solving a given numerical integration using Gaussian Quadrature Legendre

Python code for studying the convergence of Legendre series for piecewise analytic functions.

PES2MP: Get radial coefficients from PES via multipole expansion

Functional analysis tasks' solutions implemented in MatLab

This repository contains my attempts at weekly assignments and semester exams from the course I attended.

Jacobi, Gegenbauer, Chebyshev of first, second, third, fourth kind, Legendre, Laguerre, Hermite, shifted Chebyshev and Legendre polynomials

This repository contains useful matlab functions for any engineering student taking a course on Numerical Methods (Numerical Analysis). These functions can also b re-purposed to create a more complex application.

Digital signal processing library including: polynomial fitting, filtering, etc. Where possible API facilitates real-time applications

MultiPrecision Legendre Polynomial Root Finding

Spherical Harmonics project is dedicated to the study of special functions defined on the surface of a sphere. This tool facilitates visualization of mode shapes and enables the analysis of pulse and harmonic responses on the sphere's surface to external loads. Developed using C++17/ modern OpenGL