This project provides a clean and fast implementation of the ICP method by Besl and McKay in C++ with minimal dependencies (see below) and for 2D and 3D dimensions. The algorithm is one of the baseline methods on rigid alignment of point clouds, and this implementation attempts to provide an entry point for learning it with no practical hassles. At the same time, it works fast and robustly enough to be used out-of-the box on any of your projects.
Given two point sets:
find a rotation R and translation T that minimizes the error:
Given a matrix W made by a set of correspondent N points, centered to its mean
obtain the Singular Value Decomposition of W = U * S * Vt.
Theorem without proof says that if rank( W ) = 3, the optimal solution of E( R, t ) is unique and given by:
This process can be run iteratively, selecting correspondent points by different criteria (neighbourhood, random search...), until convergence.
This project attempts to use the minimal dependencies as possible, and those are self-contained in the project when possible.
- Nanoflann for KDTree-based correspondences search. Self-contained.
- TinyObjLoader for OBJ file parsing. Self-contained.
- googletest for Unit testing. Self-contained (downloads and installs automatically).
- Eigen for matrix manipulation and SVD computation. Required on your system.
- Boost just for parsing command-line arguments into the PlainICP executable. Required on your system.
Make sure Eigen and Boost are installed on your system and compile the full project:
sudo brew install eigen boost # For OsX
sudo apt-get install libeigen3-dev libboost-all-dev # For Linux apt based distros
mkdir ./build
cd ./build
cmake ..
make
Sample call with provided sample OBJ files:
./PlainICP --source-obj-file ../test/data/bunny_head.obj \
--target-obj-file ../test/data/bunny.obj \
--transformed-obj-file ../test/data/aligned_bunny_head.obj \
--tolerance 0.005 \
--verbose 1
If you want to integrate the ICP implementation into your project, just copy the headers into your source code. See the basic example below:
#include "pICP/ICP.h"
using ICP = pICP::IterativeClosestPoint< float, 3 >;
ICP icp3D;
icp3D.SetTolerance( 0.001 );
ICP::CoordinatesMatrixType sourceCoordinates(3, /* your source cloud size */);
ICP::CoordinatesMatrixType targetCoordinates(3, /* your target cloud size */);
// Populate coordinate matrices with your cloud data */
// Align
icp3D.SetSourceCoordinatesMatrix( sourceCoordinates );
icp3D.SetTargetCoordinatesMatrix( targetCoordinates );
icp3D.Align();
// Retrieve resulting transform
icp3D.GetRotationMatrix();
icp3D.GetTranslationVector();
Unit testing is provided, as a good practice and for code illustration purposes. Run the following target in the build directory:
make build_and_test
1: Test command: /pICP/build/test/PlainICP_test
1: Test timeout computed to be: 9.99988e+06
1: [==========] Running 16 tests from 3 test suites.
1: [----------] Global test environment set-up.
1: [----------] 9 tests from icp
1: [ RUN ] icp.data_unavailable
1: [ OK ] icp.data_unavailable (0 ms)
1: [ RUN ] icp.transform_not_computed
1: [ OK ] icp.transform_not_computed (0 ms)
1: [ RUN ] icp.registration_2d_identity
1: [ OK ] icp.registration_2d_identity (1 ms)
1: [ RUN ] icp.registration_2d_random_translation
1: [ OK ] icp.registration_2d_random_translation (9 ms)
1: [ RUN ] icp.registration_2d_random_rotation
1: [ OK ] icp.registration_2d_random_rotation (0 ms)
1: [ RUN ] icp.registration_2d_random_transform
1: [ OK ] icp.registration_2d_random_transform (1 ms)
1: [ RUN ] icp.registration_3d_identity
1: [ OK ] icp.registration_3d_identity (0 ms)
1: [ RUN ] icp.registration_3d_random_transform
1: [ OK ] icp.registration_3d_random_transform (5 ms)
1: [ RUN ] icp.registration_3d_random_transform_and_noise
1: [ OK ] icp.registration_3d_random_transform_and_noise (204 ms)
1: [----------] 9 tests from icp (220 ms total)
1:
1: [----------] 2 tests from pointcloud
1: [ RUN ] pointcloud.cloud_2d
1: [ OK ] pointcloud.cloud_2d (0 ms)
1: [ RUN ] pointcloud.cloud_3d
1: [ OK ] pointcloud.cloud_3d (0 ms)
1: [----------] 2 tests from pointcloud (0 ms total)
1:
1: [----------] 5 tests from utils
1: [ RUN ] utils.translate_2d
1: [ OK ] utils.translate_2d (0 ms)
1: [ RUN ] utils.rotate_2d
1: [ OK ] utils.rotate_2d (0 ms)
1: [ RUN ] utils.transform_3d
1: [ OK ] utils.transform_3d (0 ms)
1: [ RUN ] utils.coordinatesDifferenceNorm_equality
1: [ OK ] utils.coordinatesDifferenceNorm_equality (0 ms)
1: [ RUN ] utils.coordinatesDifferenceNorm_inequality
1: [ OK ] utils.coordinatesDifferenceNorm_inequality (0 ms)
1: [----------] 5 tests from utils (0 ms total)
1:
1: [----------] Global test environment tear-down
1: [==========] 16 tests from 3 test suites ran. (220 ms total)
1: [ PASSED ] 16 tests.
1/1 Test #1: PlainICP_test .................... Passed 0.22 sec
This software release is primarily MIT licensed. Some files contain third-party code under other license.