
.. DO NOT EDIT.
.. THIS FILE WAS AUTOMATICALLY GENERATED BY SPHINX-GALLERY.
.. TO MAKE CHANGES, EDIT THE SOURCE PYTHON FILE:
.. "auto_examples/transform/plot_ransac.py"
.. LINE NUMBERS ARE GIVEN BELOW.

.. only:: html

    .. note::
        :class: sphx-glr-download-link-note

        :ref:`Go to the end <sphx_glr_download_auto_examples_transform_plot_ransac.py>`
        to download the full example code.

.. rst-class:: sphx-glr-example-title

.. _sphx_glr_auto_examples_transform_plot_ransac.py:


=========================================
Robust line model estimation using RANSAC
=========================================

In this example we see how to robustly fit a line model to faulty data using
the RANSAC (random sample consensus) algorithm.

Firstly the data are generated by adding a gaussian noise to a linear function.
Then, the outlier points are added to the data set.

RANSAC iteratively estimates the parameters from the data set.
At each iteration the following steps are performed:

1. Select ``min_samples`` random samples from the original data and check
   whether the set of data is valid (see ``is_data_valid`` option).
2. Estimate a model on the random subset
   (``model_cls.from_estimate(*data[random_subset]``) and check whether the
   estimated model is valid (see ``is_model_valid`` option).
3. Classify all the data points as either inliers or outliers by calculating
   the residuals using the estimated model (``model_cls.residuals(*data)``) -
   all data samples with residuals smaller than the ``residual_threshold``
   are considered as inliers.
4. If the number of the inlier samples is greater than ever before,
   save the estimated model as the best model. In case the current estimated
   model has the same number of inliers, it is considered as the best model
   only if the sum of residuals is lower.

These steps are performed either a maximum number of times or until one of
the special stop criteria are met. The final model is estimated using all the
inlier samples of the previously determined best model.

.. GENERATED FROM PYTHON SOURCE LINES 34-81

.. code-block:: Python


    import numpy as np
    from matplotlib import pyplot as plt

    from skimage.measure import LineModelND, ransac

    rng = np.random.default_rng()

    # generate coordinates of line
    x = np.arange(-200, 200)
    y = 0.2 * x + 20
    data = np.column_stack([x, y])

    # add gaussian noise to coordinates
    noise = rng.normal(size=data.shape)
    data += 0.5 * noise
    data[::2] += 5 * noise[::2]
    data[::4] += 20 * noise[::4]

    # add faulty data
    faulty = np.array(30 * [(180.0, -100)])
    faulty += 10 * rng.normal(size=faulty.shape)
    data[: faulty.shape[0]] = faulty

    # fit line using all data
    model = LineModelND.from_estimate(data)

    # robustly fit line only using inlier data with RANSAC algorithm
    model_robust, inliers = ransac(
        data, LineModelND, min_samples=2, residual_threshold=1, max_trials=1000
    )
    outliers = inliers == False

    # generate coordinates of estimated models
    line_x = np.arange(-250, 250)
    line_y = model.predict_y(line_x)
    line_y_robust = model_robust.predict_y(line_x)

    fig, ax = plt.subplots()
    ax.plot(data[inliers, 0], data[inliers, 1], '.b', alpha=0.6, label='Inlier data')
    ax.plot(data[outliers, 0], data[outliers, 1], '.r', alpha=0.6, label='Outlier data')
    ax.plot(line_x, line_y, '-k', label='Line model from all data')
    ax.plot(line_x, line_y_robust, '-b', label='Robust line model')
    ax.legend(loc='lower left')
    plt.show()





.. image-sg:: /auto_examples/transform/images/sphx_glr_plot_ransac_001.png
   :alt: plot ransac
   :srcset: /auto_examples/transform/images/sphx_glr_plot_ransac_001.png
   :class: sphx-glr-single-img





.. GENERATED FROM PYTHON SOURCE LINES 82-83

Now, we generalize this example to 3D points.

.. GENERATED FROM PYTHON SOURCE LINES 83-126

.. code-block:: Python


    import numpy as np
    from matplotlib import pyplot as plt
    from skimage.measure import LineModelND, ransac


    # generate coordinates of line
    point = np.array([0, 0, 0], dtype='float')
    direction = np.array([1, 1, 1], dtype='float') / np.sqrt(3)
    xyz = point + 10 * np.arange(-100, 100)[..., np.newaxis] * direction

    # add gaussian noise to coordinates
    noise = rng.normal(size=xyz.shape)
    xyz += 0.5 * noise
    xyz[::2] += 20 * noise[::2]
    xyz[::4] += 100 * noise[::4]

    # robustly fit line only using inlier data with RANSAC algorithm
    model_robust, inliers = ransac(
        xyz, LineModelND, min_samples=2, residual_threshold=1, max_trials=1000
    )
    outliers = inliers == False

    fig = plt.figure()
    ax = fig.add_subplot(111, projection='3d')
    ax.scatter(
        xyz[inliers][:, 0],
        xyz[inliers][:, 1],
        xyz[inliers][:, 2],
        c='b',
        marker='o',
        label='Inlier data',
    )
    ax.scatter(
        xyz[outliers][:, 0],
        xyz[outliers][:, 1],
        xyz[outliers][:, 2],
        c='r',
        marker='o',
        label='Outlier data',
    )
    ax.legend(loc='lower left')
    plt.show()



.. image-sg:: /auto_examples/transform/images/sphx_glr_plot_ransac_002.png
   :alt: plot ransac
   :srcset: /auto_examples/transform/images/sphx_glr_plot_ransac_002.png
   :class: sphx-glr-single-img






.. rst-class:: sphx-glr-timing

   **Total running time of the script:** (0 minutes 0.434 seconds)


.. _sphx_glr_download_auto_examples_transform_plot_ransac.py:

.. only:: html

  .. container:: sphx-glr-footer sphx-glr-footer-example

    .. container:: sphx-glr-download sphx-glr-download-jupyter

      :download:`Download Jupyter notebook: plot_ransac.ipynb <plot_ransac.ipynb>`

    .. container:: sphx-glr-download sphx-glr-download-python

      :download:`Download Python source code: plot_ransac.py <plot_ransac.py>`

    .. container:: sphx-glr-download sphx-glr-download-zip

      :download:`Download zipped: plot_ransac.zip <plot_ransac.zip>`


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 .. rst-class:: sphx-glr-signature

    `Gallery generated by Sphinx-Gallery <https://sphinx-gallery.github.io>`_
