This is the Jupyter notebook version of the following book:
Michael Beyeler
Machine Learning for OpenCV: A practical introduction to the world of machine learning and image processing using OpenCV and Python
14 July 2017
Packt Publishing Ltd., London, England
Paperback: 382 pages
ISBN 978-178398028-4
The content is available on GitHub. The code is released under the MIT license.
For questions, discussions, and more detailed help please refer to the Google group.
If you use either book or code in a scholarly publication, please cite as:
M. Beyeler, (2017). Machine Learning for OpenCV. Packt Publishing Ltd., London, England, 380 pages, ISBN 978-178398028-4.
Or use the following bibtex:
@book{MachineLearningOpenCV,
title = {{Machine Learning for OpenCV}},
subtitle = {{A practical introduction to the world of machine learning and image processing using OpenCV and Python}},
author = {Michael Beyeler},
year = {2017},
pages = {380},
publisher = {Packt Publishing Ltd.},
isbn = {978-178398028-4}
}
There are at least two ways you can run the code:
- Using Binder (no installation required).
- Using Jupyter Notebook on your local machine.
The code in this book was tested with Python 3.5, although older versions of Python should work as well (such as Python 2.7).
Binder allows you to run Jupyter notebooks in an interactive Docker container. No installation required!
Launch the project: mbeyeler/opencv-machine-learning
You basically want to follow the installation instructions in Chapter 1 of the book.
In short:
-
Download and install Python Anaconda. On Unix, when asked if the Anaconda path should be added to your
PATH
variable, choose yes. Then either open a new terminal or run$ source ~/.bashrc
. -
Fork and clone the GitHub repo:
- Click the
Fork
button in the top-right corner of this page. - Clone the repo, where
YourUsername
is your actual GitHub user name:
$ git clone https://github.com/YourUsername/opencv-machine-learning $ cd opencv-machine-learning
- Add the following to your remotes:
$ git remote add upstream https://github.com/mbeyeler/opencv-machine-learning
- Click the
-
Add Conda-Forge to your trusted channels (to simplify installation of OpenCV on Windows platforms):
$ conda config --add channels conda-forge
-
Create a conda environment for Python 3 with all required packages:
$ conda create -n Python3 python=3.5 --file requirements.txt
-
Activate the conda environment. On Linux / Mac OS X:
$ source activate Python3
On Windows:
$ activate Python3
You can learn more about conda environments in the Managing Environments section of the conda documentation.
-
Launch Jupyter notebook:
$ jupyter notebook
This will open up a browser window in your current directory. Navigate to the folder
opencv-machine-learning
. The README file has a table of contents. Else navigate to thenotebooks
folder, click on the notebook of your choice, and selectKernel > Restart & Run All
from the top menu.
If you followed the instructions above and:
- forked the repo,
- cloned the repo,
- added the
upstream
remote repository,
then you can always grab the latest changes by running a git pull:
$ cd opencv-machine-learning
$ git pull upstream master
The following errata have been reported that apply to the print version of the book:
- p.32:
Out[15]
should read '3' instead of 'int_arr[3]'. - p.32:
Out[22]
should readarray([9, 8, 7, 6, 5, 4, 3, 2, 1, 0])
instead ofarray([0, 1, 2, 3, 4, 5, 6, 7, 8, 9])
. - p.72:
In [6]
should readridgereg = linear_model.Ridge()
instead ofridgereg = linear_model.RidgeRegression()
. - p.120:
In [16]
should readdtree = cv2.ml.DTrees_create()
instead ofdtree = cv2.ml.dtree_create()
. - p.122:
In [26]
should readwith open("tree.dot", 'w'): f = tree.export_graphviz(dtc, out_file=f, feature_names=vec.get_feature_names(), class_names=['A', 'B', 'C', 'D'])
instead ofwith open("tree.dot", 'w'): f = tree.export_graphviz(clf, out_file=f)
. - p.147: The first occurrences of
X_hypo = np.c_[xx.ravel().astype(np.float32), yy.ravel().astype(np.float32)]
and_, zz = svm.predict(X_hypo)
should be removed, as they mistakenly appear twice. - p.193:
In [28]
is missingfrom sklearn import metrics
. - p.201: Indentation in bullet points 2-4 are wrong. Please refer to the Jupyter notebook for the correct indentation.
- p.230:
In [2]
has wrong indentation:class Perceptron(object)
correctly has indentation level 1, butdef __init__
should have indentation level 2, and the two commandsself.lr = lr; self.n_iter = n_iter
should have indentation level 3. - p.260:
In [5]
should readfrom keras.models import Sequential
instead offrom keras.model import Sequential
. - p.260:
In [6]
should readmodel.add(Conv2D(n_filters, (kernel_size[0], kernel_size[1]), padding='valid', input_shape=input_shape))
instead ofmodel.add(Convolution2D(n_filters, kernel_size[0], kernel_size[1], border_mode='valid', input_shape=input_shape))
. - p.260:
In [8]
should readmodel.add(Conv2D(n_filters, (kernel_size[0], kernel_size[1])))
instead ofmodel.add(Convolution2D(n_filters, (kernel_size[0], kernel_size[1])))
. - p.261:
In [12]
should readmodel.fit(X_train, Y_train, batch_size=128, epochs=12, verbose=1, validation_data=(X_test, Y_test))
instead ofmodel.fit(X_train, Y_train, batch_size=128, nb_epoch=12, verbose=1, validation_data=(X_test, Y_test))
. - p.275, in bullet point 2 it should say
ret = classifier.predict(X_hypo)
instead ofzz = classifier.predict(X_hypo); zz = zz.reshape(xx.shape)
. - p.285:
plt.imshow(X[i, :].reshape((64, 64)), cmap='gray')
should be indented so that it is aligned with the previous line. - p.288:
In [14]
should read_, y_hat = rtree.predict(X_test)
instead of_, y_hat = tree.predict(X_test)
. - p.306:
In [2]
should readfrom sklearn.model_selection import train_test_split
instead offrom sklearn.model_selection import model_selection
. - p.310:
In [18]
should readknn.train(X_boot, cv2.ml.ROW_SAMPLE, y_boot)
instead ofknn.train(X_train, cv2.ml.ROW_SAMPLE, y_boot)
. - p.328:
In [5]
is missing the statementfrom sklearn.preprocessing import MinMaxScaler
.
Please note that these mistakes do not appear in the code of this repository.
This book was inspired in many ways by the following authors and their corresponding publications:
- Jake VanderPlas, Python Data Science Handbook: Essential Tools for Working with Data. O'Reilly, ISBN 978-149191205-8, 2016, https://github.com/jakevdp/PythonDataScienceHandbook
- Andreas Muller and Sarah Guido, Introduction to Machine Learning with Python: A Guide for Data Scientists. O'Reilly, ISBN 978-144936941-5, 2016, https://github.com/amueller/introduction_to_ml_with_python
- Sebastian Raschka, Python Machine Learning. Packt, ISBN 978-178355513-0, 2015, https://github.com/rasbt/python-machine-learning-book
These books all come with their own open-source code - check them out when you get a chance!