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jaxlie
is a library containing implementations of Lie groups commonly used for
rigid body transformations, targeted at computer vision & robotics
applications written in JAX. Heavily inspired by the C++ library
Sophus.
We implement Lie groups as high-level (data)classes:
Group | Description | Parameterization |
---|---|---|
jaxlie.SO2 |
Rotations in 2D. | (real, imaginary): unit complex (∈ S1) |
jaxlie.SE2 |
Proper rigid transforms in 2D. | (real, imaginary, x, y): unit complex & translation |
jaxlie.SO3 |
Rotations in 3D. | (qw, qx, qy, qz): wxyz quaternion (∈ S3) |
jaxlie.SE3 |
Proper rigid transforms in 3D. | (qw, qx, qy, qz, x, y, z): wxyz quaternion & translation |
Where each group supports:
- Forward- and reverse-mode AD-friendly
exp()
,log()
,adjoint()
,apply()
,multiply()
,inverse()
,identity()
,from_matrix()
, andas_matrix()
operations. (see ./examples/se3_example.py) - Helpers for optimization on manifolds (see
./examples/se3_optimization.py,
jaxlie.manifold.*
). - Compatibility with standard JAX function transformations. (see ./examples/vmap_example.py)
- (Un)flattening as pytree nodes.
- Serialization using flax.
We also implement various common utilities for things like uniform random
sampling (sample_uniform()
) and converting from/to Euler angles (in the
SO3
class).
# Python 3.6 releases also exist, but are no longer being updated.
pip install jaxlie
- jaxfg applies
jaxlie
to nonlinear least squares problems with block-sparse structure. (for pose graph optimization, bundle adjustment, etc) - tensorf-jax is an unofficial
implementation of
Tensorial Radiance Fields (Chen et al, ECCV 2022)
using
jaxlie
.
jaxlie
was originally written for our IROS 2021 paper
(link). If it's useful for you, you're
welcome to cite:
@inproceedings{yi2021iros,
author={Brent Yi and Michelle Lee and Alina Kloss and Roberto Mart\'in-Mart\'in and Jeannette Bohg},
title = {Differentiable Factor Graph Optimization for Learning Smoothers},
year = 2021,
BOOKTITLE = {2021 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)}
}