spherical-harmonics

DIPY is the paragon 3D/4D+ medical imaging library in Python. Contains generic methods for spatial normalization, signal processing, machine learning, statistical analysis and visualization of medical images. Additionally, it contains specialized methods for computational anatomy including diffusion, perfusion and structural imaging.

A high-fidelity 3D face reconstruction library from monocular RGB image(s)

A cross-platform framework for developing spatial audio algorithms and software in C/C++

PlenOctree Volume Rendering (supports CUDA & fragment shader backends)

Intrinsic3D - High-Quality 3D Reconstruction by Joint Appearance and Geometry Optimization with Spatially-Varying Lighting (ICCV 2017)

SHTOOLS - Spherical Harmonic Tools

S2FFT: Differentiable and accelerated spherical transforms

📐 Orthogonal polynomials in all shapes and sizes.

Spatial Audio Python Package

A spherical convolutional neural network for cosmology (TFv1).

SPHARM-Net: Spherical Harmonics-based Convolutional Neural Network

Multi-language library for the calculation of spherical harmonics in Cartesian coordinates

Global Illumination using Spherical Harmonics

Real-Time Spherical Array Renderer for binaural reproduction in Python

Deep Lighting Environment Map Estimation from Spherical Panoramas (CVPRW20)

Head-related Transfer Function Customization Process through Slider using PCA and SH in Matlab

A collection of primarily graphics programming focused blog posts.

PlenOctree Extraction algorithm

Shape analysis has become of increasing interest to the medical community due to its potential to precisely locate morphological changes between healthy and pathological structures. SPHARM-PDM is a tool that computes point-based models using a parametric boundary description for the computing of Shape analysis.

Python tools for working with time-variable gravity fields