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You're reading from Machine Learning for OpenCV Intelligent image processing with Python

Product type Paperback

Published in Jul 2017

Publisher Packt

ISBN-13 9781783980284

Length 382 pages

Edition 1st Edition

Languages

Python

Tools

OpenCV

Concepts

Machine Learning

Authors (2):

Michael Beyeler

Michael Beyeler (USD)

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Table of Contents (13) Chapters

Preface

1. A Taste of Machine Learning

2. Working with Data in OpenCV and Python FREE CHAPTER

3. First Steps in Supervised Learning

4. Representing Data and Engineering Features

5. Using Decision Trees to Make a Medical Diagnosis

6. Detecting Pedestrians with Support Vector Machines

7. Implementing a Spam Filter with Bayesian Learning

8. Discovering Hidden Structures with Unsupervised Learning

9. Using Deep Learning to Classify Handwritten Digits

10. Combining Different Algorithms into an Ensemble

11. Selecting the Right Model with Hyperparameter Tuning

12. Wrapping Up

Dealing with nonlinear decision boundaries

What if the data cannot be optimally partitioned using a linear decision boundary? In such a case, we say the data is not linearly separable.

The basic idea to deal with data that is not linearly separable is to create nonlinear combinations of the original features. This is the same as saying we want to project our data to a higher-dimensional space (for example, from 2D to 3D) in which the data suddenly becomes linearly separable. This concept is illustrated in the following figure:

Finding linear hyperplanes in higher-dimensional spaces

If data in its original input space (left) cannot be linearly separated, we can apply a mapping function ϕ(.) that projects the data from 2D into a 3D plane. In this higher-dimensional space, we may find that there is now a linear decision boundary (which, in 3D, is a plane) that can separate...

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Authors (2)

Michael Beyeler (USD)

Michael Beyeler is a postdoctoral fellow in neuroengineering and data science at the University of Washington, where he is working on computational models of bionic vision in order to improve the perceptual experience of blind patients implanted with a retinal prosthesis (bionic eye).His work lies at the intersection of neuroscience, computer engineering, computer vision, and machine learning. He is also an active contributor to several open source software projects, and has professional programming experience in Python, C/C++, CUDA, MATLAB, and Android. Michael received a PhD in computer science from the University of California, Irvine, and an MSc in biomedical engineering and a BSc in electrical engineering from ETH Zurich, Switzerland.

See other products by Michael Beyeler (USD)

Michael Beyeler