File: icp_registration.py

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# ----------------------------------------------------------------------------
# -                        Open3D: www.open3d.org                            -
# ----------------------------------------------------------------------------
# Copyright (c) 2018-2024 www.open3d.org
# SPDX-License-Identifier: MIT
# ----------------------------------------------------------------------------
"""ICP (Iterative Closest Point) registration algorithm"""

import open3d as o3d
import numpy as np
import copy


def draw_registration_result(source, target, transformation):
    source_temp = copy.deepcopy(source)
    target_temp = copy.deepcopy(target)
    source_temp.paint_uniform_color([1, 0.706, 0])
    target_temp.paint_uniform_color([0, 0.651, 0.929])
    source_temp.transform(transformation)
    o3d.visualization.draw([source_temp, target_temp])


def point_to_point_icp(source, target, threshold, trans_init):
    print("Apply point-to-point ICP")
    reg_p2p = o3d.pipelines.registration.registration_icp(
        source, target, threshold, trans_init,
        o3d.pipelines.registration.TransformationEstimationPointToPoint())
    print(reg_p2p)
    print("Transformation is:")
    print(reg_p2p.transformation, "\n")
    draw_registration_result(source, target, reg_p2p.transformation)


def point_to_plane_icp(source, target, threshold, trans_init):
    print("Apply point-to-plane ICP")
    reg_p2l = o3d.pipelines.registration.registration_icp(
        source, target, threshold, trans_init,
        o3d.pipelines.registration.TransformationEstimationPointToPlane())
    print(reg_p2l)
    print("Transformation is:")
    print(reg_p2l.transformation, "\n")
    draw_registration_result(source, target, reg_p2l.transformation)


if __name__ == "__main__":
    pcd_data = o3d.data.DemoICPPointClouds()
    source = o3d.io.read_point_cloud(pcd_data.paths[0])
    target = o3d.io.read_point_cloud(pcd_data.paths[1])
    threshold = 0.02
    trans_init = np.asarray([[0.862, 0.011, -0.507, 0.5],
                             [-0.139, 0.967, -0.215, 0.7],
                             [0.487, 0.255, 0.835, -1.4], [0.0, 0.0, 0.0, 1.0]])
    draw_registration_result(source, target, trans_init)

    print("Initial alignment")
    evaluation = o3d.pipelines.registration.evaluate_registration(
        source, target, threshold, trans_init)
    print(evaluation, "\n")

    point_to_point_icp(source, target, threshold, trans_init)
    point_to_plane_icp(source, target, threshold, trans_init)