Metadata-Version: 2.4
Name: biocpd
Version: 0.1.0
Summary: Coherent Point Drift variants (rigid, affine, deformable, PCA/SSM) in NumPy/SciPy
Home-page: https://github.com/agporto/biocpd
Author: Arthur Porto
Author-email: agporto@gmail.com
License: MIT
Keywords: point cloud registration CPD
Classifier: Development Status :: 3 - Alpha
Classifier: License :: OSI Approved :: MIT License
Classifier: Programming Language :: Python :: 3
Classifier: Topic :: Scientific/Engineering
Description-Content-Type: text/markdown
Requires-Dist: numpy
Requires-Dist: scipy
Requires-Dist: scikit-learn
Requires-Dist: matplotlib
Dynamic: author
Dynamic: author-email
Dynamic: classifier
Dynamic: description
Dynamic: description-content-type
Dynamic: home-page
Dynamic: keywords
Dynamic: license
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# biocpd

Coherent Point Drift (CPD) registration in pure NumPy/SciPy with fast variants:
- Rigid and Affine CPD
- Deformable CPD with low-rank (randomized SVD) and k-d tree accelerated E-step
- Constrained Deformable CPD with correspondence priors
- Atlas/SSM-based CPD (`AtlasRegistration`) optimized in coefficient space

## Why biocpd?
- Fast: sparse k-NN E-step, low-rank kernels, and efficient linear solvers
- Flexible: rigid, affine, unconstrained and constrained deformable, and SSM/atlas-based
- Simple: pure NumPy/SciPy implementation; easy to read and extend

## Install

```bash
pip install -r requirements.txt
# optional (recommended for building)
pip install build wheel
```

## Build wheel

```bash
# From repository root
python -m build
# or legacy
python setup.py sdist bdist_wheel
```

## Quickstart

```python
import numpy as np
from biocpd import RigidRegistration, AffineRegistration, DeformableRegistration, ConstrainedDeformableRegistration, AtlasRegistration

rng = np.random.default_rng(0)
X = rng.normal(size=(200, 3))           # target
Y = X + 0.05 * rng.normal(size=(200,3)) # source (noisy)

# Rigid CPD
rig = RigidRegistration(X=X, Y=Y, max_iterations=50, use_kdtree=True, k=10)
TY_rigid, (s, R, t) = rig.register()

# Affine CPD
aff = AffineRegistration(X=X, Y=Y, max_iterations=50, use_kdtree=True, k=10)
TY_affine, (B, t) = aff.register()

# Deformable CPD (low-rank + k-d tree)
defm = DeformableRegistration(X=X, Y=Y, alpha=2.0, beta=2.0, low_rank=True, num_eig=80,
                              use_kdtree=True, k=10, radius_mode=False, w=0.05,
                              max_iterations=50)
TY_def, params = defm.register()

# Constrained Deformable CPD
ids = np.arange(10)
con = ConstrainedDeformableRegistration(X=X, Y=Y, alpha=2.0, beta=2.0, low_rank=True, num_eig=80,
                                        use_kdtree=True, k=10, e_alpha=1e-4,
                                        source_id=ids, target_id=ids,
                                        max_iterations=50)
TY_con, params_con = con.register()

# Atlas / Statistical Shape Model CPD
M, D, K = 200, 3, 12
mean_shape = rng.normal(size=(M, D)).reshape(-1)
U = rng.normal(size=(M*D, K))
L = np.abs(rng.normal(size=(K,))) + 1e-1
atl = AtlasRegistration(X=X, Y=mean_shape.reshape(M, D), mean_shape=mean_shape,
                        U=U, eigenvalues=L, lambda_reg=0.1,
                        normalize=True, use_kdtree=True, k=10, radius_mode=False,
                        optimize_similarity=True, with_scale=True, w=0.02,
                        max_iterations=50)
TY_atl, params_atl = atl.register()
```

## Key options
- `use_kdtree`, `k`: enable sparse E-step for speed on large data
- `low_rank`, `num_eig` (deformable): low-rank kernel for fast M-step
- `radius_mode`: optional radius gating in sparse E-step (off by default)
- `w`: outlier weight (0 ≤ w < 1) in GMM
- `normalize` (atlas): improves stability across scales

## Acknowledgements
- This work builds on the excellent original CPD implementation by Siavash Khallaghi (`pycpd`, MIT-licensed) and the CPD method by Myronenko and Song.
- Repository for `pycpd`: https://github.com/siavashk/pycpd

## Citation
If you use this package in academic work, please cite CPD:

- Myronenko, A. and Song, X., "Point Set Registration: Coherent Point Drift," in IEEE Transactions on Pattern Analysis and Machine Intelligence, 2010.

## License
MIT 
