There are 0 repository under spherical topic.
:rocket: Julia package for orthogonal polynomial transforms :snowboarder:
[CVPR2020] BiFuse: Monocular 360 Depth Estimation via Bi-Projection Fusion
:bullettrain_front: Fast orthogonal polynomial transforms :surfer:
Spherical conformal map for genus-0 closed surfaces
This package provides semi-analytical solutions to the scattering of time harmonic and static electromagnetic fields from spherical objects.
Pynkowski is a Python package to compute Minkowski Functionals, as well as their expected values for different fields.
A DCGAN implementing all the tricks from recent papers up to 2020 and from all over the internet. Trained on CelebA at 157x128. "GAN Hacks 2", if you will.
Geometry coordinate converter for common 2d/3d coordinate systems
🗺️ Spherical Mercator math in Ruby
Using noise to generate, and animate, lines on the surface of a sphere.
MATLAB+Fortran routines for interpolation from scattered points on the sphere via spherical harmonics
A library for Spherical Fourier Bessel (SFB) Decomposition
Implementation of the paper "Spherical Orbifold Tutte Embeddings", presented in SIGGRAPH 2017
Have you ever needed a set of spherical tanks of various capacities, to use for a refueling depot? an interplanetary mothership? A resource extraction base? Have you ever wanted a different tank options? DaMichel's Spherical Tanks might just be for you. For Kerbal Space Program.
Spherical histogram made simple! The surface colors indicate the density of points lying in the respective direction. Variable bin size. Works with large data sets. Points are read from your .npy files.
Explaining Bloch sphere using qiskit
Python/Pyglet code for rendering on spherical displays
Jupyter notebook for extracting plane images from omni-directional image
Data Generation: Data is a spherical projection of the 3-D meshes.
A position/vector transformation library, making it easy to manipulate 3D coordinate systems. Vectors can be in Cartesian, Spherical, or Cylindrical format, and the library includes matrix utilities for efficient mass-transformation.
Use Blender's powerfull raytracing engine to plot atomic wavefunctions and probability densities in 3D space.