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Hands-On Vision and Behavior for Self-Driving Cars

You're reading from   Hands-On Vision and Behavior for Self-Driving Cars Explore visual perception, lane detection, and object classification with Python 3 and OpenCV 4

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Product type Paperback
Published in Oct 2020
Publisher Packt
ISBN-13 9781800203587
Length 374 pages
Edition 1st Edition
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Authors (2):
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Krishtof Korda Krishtof Korda
Author Profile Icon Krishtof Korda
Krishtof Korda
Luca Venturi Luca Venturi
Author Profile Icon Luca Venturi
Luca Venturi
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Toc

Table of Contents (17) Chapters Close

Preface 1. Section 1: OpenCV and Sensors and Signals
2. Chapter 1: OpenCV Basics and Camera Calibration FREE CHAPTER 3. Chapter 2: Understanding and Working with Signals 4. Chapter 3: Lane Detection 5. Section 2: Improving How the Self-Driving Car Works with Deep Learning and Neural Networks
6. Chapter 4: Deep Learning with Neural Networks 7. Chapter 5: Deep Learning Workflow 8. Chapter 6: Improving Your Neural Network 9. Chapter 7: Detecting Pedestrians and Traffic Lights 10. Chapter 8: Behavioral Cloning 11. Chapter 9: Semantic Segmentation 12. Section 3: Mapping and Controls
13. Chapter 10: Steering, Throttle, and Brake Control 14. Chapter 11: Mapping Our Environments 15. Assessments 16. Other Books You May Enjoy

What this book covers

Chapter 1, OpenCV Basics and Camera Calibration, is an introduction to OpenCV and NumPy; you will learn how to manipulate images and videos, and how to detect pedestrians using OpenCV; in addition, it explains how a camera works and how OpenCV can be used to calibrate it.

Chapter 2, Understanding and Working with Signals, describes the different types of signals: serial, parallel, digital, analog, single-ended, and differential, and explains some very important protocols: CAN, Ethernet, TCP, and UDP.

Chapter 3, Lane Detection, teaches you everything you need to know to detect the lanes in a road using OpenCV. It covers color spaces, perspective correction, edge detection, histograms, the sliding window technique, and the filtering required to get the best detection.

Chapter 4, Deep Learning with Neural Networks, is a practical introduction to neural networks, designed to quickly teach how to write a neural network. It describes neural networks in general and convolutional neural networks in particular. It introduces Keras, a deep learning module, and it shows how to use it to detect handwritten digits and to classify some images.

Chapter 5, Deep Learning Workflow, ideally complements Chapter 4, Deep Learning with Neural Networks, as it describes the theory of neural networks and the steps required in a typical workflow: obtaining or creating a dataset, splitting it into training, validation, and test sets, data augmentation, the main layers used in a classifier, and how to train, do inference, and retrain. The chapter also covers underfitting and overfitting and explains how to visualize the activations of the convolutional layers.

Chapter 6, Improving Your Neural Network, explains how to optimize a neural network, reducing its parameters, and how to improve its accuracy using batch normalization, early stopping, data augmentation, and dropout.

Chapter 7, Detecting Pedestrians and Traffic Lights, introduces you to CARLA, a self-driving car simulator, which we will use to create a dataset of traffic lights. Using a pre-trained neural network called SSD, we will detect pedestrians, cars, and traffic lights, and we will use a powerful technique called transfer learning to train a neural network to classify the traffic lights according to their colors.

Chapter 8, Behavioral Cloning, explains how to train a neural network to drive CARLA. It explains what behavioral cloning is, how to build a driving dataset using CARLA, how to create a network that's suitable for this task, and how to train it. We will use saliency maps to get an understanding of what the network is learning, and we will integrate it with CARLA to help it self-drive!

Chapter 9, Semantic Segmentation, is the final and most advanced chapter about deep learning, and it explains what semantic segmentation is. It details an extremely interesting architecture called DenseNet, and it shows how to adapt it to semantic segmentation.

Chapter 10, Steering, Throttle, and Brake Control, is about controlling a self-driving car. It explains what a controller is, focusing on PID controllers and covering the basics of MPC controllers. Finally, we will implement a PID controller in CARLA.

Chapter 11, Mapping Our Environments, is the final chapter. It discusses maps, localization, and lidar, and it describes some open source mapping tools. You will learn what Simultaneous Localization and Mapping (SLAM) is and how to implement it using the Ouster lidar and Google Cartographer.

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