Learning Robotics Using Python · Design, Simulate, Program, and Prototype an Autonomous Mobile Robot Using ROS, OpenCV, PCL, and Python · 2nd Edition by Joseph, Lentin -- Read -- Imperial Library of Trantor

Index

Title Page Copyright and Credits

Learning Robotics using Python Second Edition

Dedication Packt Upsell

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Contributors

About the author About the reviewer Packt is searching for authors like you

Preface

Who this book is for What this book covers To get the most out of this book

Download the example code files Download the color images Conventions used

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Reviews

Getting Started with Robot Operating System

Technical requirements Introduction to ROS

ROS concepts

The ROS filesystem The ROS Computation Graph The ROS community level

Installing ROS on Ubuntu Introducing catkin Creating a ROS package

Hello_world_publisher.py Hello_world_subscriber.py

Introducing Gazebo

Installing Gazebo Testing Gazebo with the ROS interface

Summary Questions

Understanding the Basics of Differential Robots

Mathematical modeling of the robot

Introduction to the differential drive system and robot kinematics

Forward kinematics of a differential robot

Explanations of the forward kinematics equation

Inverse kinematics Summary Questions Further information

Modeling the Differential Drive Robot

Technical requirements Requirements of a service robot Robot drive mechanism

Selection of motors and wheels

Calculation of RPM of motors Calculation of motor torque

The design summary The robot chassis design

Installing LibreCAD, Blender, and MeshLab

Installing LibreCAD Installing Blender Installing MeshLab

Creating 2D CAD drawing of a robot using LibreCAD

The base plate designs Base plate pole design Wheel, motor, and motor clamp design Caster wheel design Middle plate design Top plate design

Working with a 3D model of the robot using Blender

Python scripting in Blender Introduction to Blender Python APIs Python script of the robot model

Creating a URDF model of the robot

Creating a Chefbot description ROS package

Summary Questions Further reading

Simulating a Differential Drive Robot Using ROS

Technical requirements Getting started with the Gazebo simulator

The Gazebo's graphical user interface

The Scene The Left Panel Right Panel

Gazebo toolbars Upper toolbar

Bottom toolbar

Working with a TurtleBot 2 simulation

Moving the robot

Creating a simulation of Chefbot

Depth image to laser scan conversion URDF tags and plugins for Gazebo simulation

Cliff sensor plugin Contact sensor plugin Gyroscope plugin Differential drive plugin Depth camera plugin

Visualizing the robot sensor data

Getting started with Simultaneous Localization and Mapping

Implementing SLAM in the Gazebo environment

Creating a map using SLAM Getting started with Adaptive Monte Carlo Localization Implementing AMCL in the Gazebo environment Autonomous navigation of Chefbot in the hotel using Gazebo

Summary Questions Further reading

Designing ChefBot Hardware and Circuits

Technical requirements Specifications of the ChefBot's hardware Block diagram of the robot

Motor and encoder

Selecting motors, encoders, and wheels for the robot

Motor driver

Selecting a motor driver/controller

Input pins Output pins Power supply pins

Embedded controller board Ultrasonic sensors

Selecting an ultrasonic sensor

Inertial measurement unit Kinect/Orbbec Astra Central processing unit Speakers/mic Power supply/battery

How ChefBot’s hardware works’? Summary Questions Further reading

Interfacing Actuators and Sensors to the Robot Controller

Technical requirements Interfacing DC geared motor to Tiva C LaunchPad

Differential wheeled robot Installing Energia IDE Motor interfacing code

Interfacing quadrature encoder with Tiva C Launchpad

Processing encoder data Quadrature encoder interfacing code

Working with Dynamixel actuators Working with ultrasonic distance sensors

Interfacing HC-SR04 to Tiva C LaunchPad

Working of HC-SR04 Interfacing Code of Tiva C Launchpad Interfacing Tiva C LaunchPad with Python

Working with the IR proximity sensor Working with Inertial Measurement Units

Inertial navigation Interfacing MPU 6050 with Tiva C LaunchPad

Setting the MPU 6050 library in Energia

Interfacing code of Energia

Summary Questions Further reading

Interfacing Vision Sensors with ROS

Technical requirements List of robotic vision sensors and image libraries

Pixy2/CMUcam5 Logitech C920 webcam Kinect 360 Intel RealSense D400 series Orbbec Astra depth sensor

Introduction to OpenCV, OpenNI, and PCL

What is OpenCV?

Installation of OpenCV from the source code in Ubuntu Reading and displaying an image using the Python-OpenCV interface Capturing from the web camera

What is OpenNI?

Installing OpenNI in Ubuntu

What is PCL?

Programming Kinect with Python using ROS, OpenCV, and OpenNI

How to launch the OpenNI driver The ROS interface with OpenCV

Creating a ROS package with OpenCV support Displaying Kinect images using Python, ROS, and cv_bridge

Interfacing Orbbec Astra with ROS

Installing the Astra–ROS driver

Working with point clouds using Kinect, ROS, OpenNI, and PCL

Opening the device and generating a point cloud

Conversion of point cloud data to laser scan data Working with SLAM using ROS and Kinect Summary Questions Further reading

Building ChefBot Hardware and the Integration of Software

Technical requirements Building ChefBot hardware Configuring ChefBot PC and setting ChefBot ROS packages Interfacing ChefBot sensors to the Tiva-C LaunchPad

Embedded code for ChefBot

Writing a ROS Python driver for ChefBot Understanding ChefBot ROS launch files Working with ChefBot Python nodes and launch files

Working with SLAM on ROS to build a map of the room Working with ROS localization and navigation

Summary Questions Further reading

Designing a GUI for a Robot Using Qt and Python

Technical requirements Installing Qt on Ubuntu 16.04 LTS Working with Python bindings of Qt

PyQt

Installing PyQt in Ubuntu 16.04 LTS

PySide

Installing PySide on Ubuntu 16.04 LTS

Working with PyQt and PySide

Introducing Qt Designer Qt signals and slots Converting a UI file into Python code Adding a slot definition to PyQt code Operation of the Hello World GUI application

Working with ChefBot's control GUI Installing and working with rqt in Ubuntu 16.04 LTS Summary Questions Further reading

Assessments

Chapter 1, Getting Started with the Robot Operating System Chapter 2, Understanding the Basics of Differential Robots Chapter 3, Modeling the Differential Drive Robot Chapter 4, Simulating a Differential Drive Robot Using ROS Chapter 5, Designing ChefBot Hardware and Circuits Chapter 6, Interfacing Actuators and Sensors to the Robot Controller Chapter 7, Interfacing Vision Sensors with ROS Chapter 8, Building ChefBot Hardware and Integration of Software Chapter 9, Designing a GUI for a Robot Using Qt and Python

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