Pycsou extension module for linear inverse problems involving signals defined on the sphere.
-
Updated
Apr 23, 2021 - Python
Pycsou extension module for linear inverse problems involving signals defined on the sphere.
Hyperspectral to Dem Automatic Alignment and Projection - Advanced Remote Sensing System project
Generate a table to encode direction using spherical harmonics
Couple of console tools for encoding/decoding cubemap data into/from sh coefficients.
Generate spherical harmonics geometry representations in FBX format.
Spherical Harmonics plugin/extension for PyMol
Demo webpage for Applied Acoustics
PES2MP: Get radial coefficients from PES via multipole expansion
MSc Thesis code written to determine any deviation from GR in given gravity models using redshift space distortions.
Codes to compute pure spectra from CMB maps.
Computational framework for solving the radiative transfer equation in one spatial dimension using a Godunov-type finite volume method with piecewise linear reconstruction of the solution within each cell of the computational domain.
Essential functionality for visual development
Additional documentation for SPHEREPACK
Jacob-Wick helicity amplitudes, angular distributions and SU(2) decomposition functions
Basic routines for Spherical Wave modelling in the Far-Field
Code for visualizing spherical harmonics and generating an ambisonic decoder in Matlab.
Mitsuba renderer (August 2013) extended to render per-vertex data and environment maps of spherical harmonics
Add a description, image, and links to the spherical-harmonics topic page so that developers can more easily learn about it.
To associate your repository with the spherical-harmonics topic, visit your repo's landing page and select "manage topics."