There are 1 repository under b-splines topic.
ANSI C library for NURBS, B-Splines, and Bézier curves with interfaces for C++, C#, D, Go, Java, Javascript, Lua, Octave, PHP, Python, R, and Ruby.
A collection of B-spline tools in Julia
Isogeometric-analysis and FEM code.
Optimization of aircraft short-term trajectories, parameterized using B-splines.
Julia library for function approximation with compact basis functions
Source code of Julian Valentin's PhD thesis (arXiv version): “B-Splines for Sparse Grids: Algorithms and Application to Higher-Dimensional Optimization”
Representing curves and surfaces with NURBS model .
In this repo you can find implementation for Cubic and Quadratic B-splines trajectory generation given poses in R(3) along with B-spline trajectory T(t) generation, of any degree (n) given increments of poses in R(3) and also SO(3) and SE(3) Lie groups.
This repo holds some implementations and approximations of B-spline curves and surfaces
Bachelor computer graphics course project.
⛏️ FE code that discretizes a two-dimensional Poisson’s equation using B-Spline basis functions.
Program for calculating the energies of the eigenstates of hydrogen, as well as writing the specified (radial) wavefunction to a .txt file. This is my solution to a homework problem in computational atomic physics.
Algorithm for intersection points between two B-spline curves using Bezier clipping
GPS Navigation package. Provides planner and a follow pose for a pure pursuit based controller.
Project for Numerical Methods for Graphics course. Development and implementation of some exercises based on Bézier, and B-Spline Curve or Surfaces.
Approximate an image's gradient from a b-spline fit to its intensity
Implementation of NURBS in PyTorch for automatically differentiable parametric geometries.
Визуализация B-сплайн поверхности произвольной формы
Cálculo da curva de Bézier em PHP
A Python client for SplineCloud API
A collection of Python scripts for CAD algorithms, focusing on curve interpolation, surface generation, and interactive modeling.
Trabajos presentados como parte del curso de Reconocimiento de Patrones y Aprendizaje Automatizado, impartido por el profesor Sergio Hernández López durante el semestre 2023-2 en la Facultad de Ciencias, UNAM.