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Learn Robotics Programming

You're reading from   Learn Robotics Programming Build and control AI-enabled autonomous robots using the Raspberry Pi and Python

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Product type Paperback
Published in Feb 2021
Publisher Packt
ISBN-13 9781839218804
Length 602 pages
Edition 2nd Edition
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Author (1):
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Danny Staple Danny Staple
Author Profile Icon Danny Staple
Danny Staple
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Table of Contents (25) Chapters Close

Preface 1. Section 1: The Basics – Preparing for Robotics
2. Chapter 1: Introduction to Robotics FREE CHAPTER 3. Chapter 2: Exploring Robot Building Blocks – Code and Electronics 4. Chapter 3: Exploring the Raspberry Pi 5. Chapter 4: Preparing a Headless Raspberry Pi for a Robot 6. Chapter 5: Backing Up the Code with Git and SD Card Copies 7. Section 2: Building an Autonomous Robot – Connecting Sensors and Motors to a Raspberry Pi
8. Chapter 6: Building Robot Basics – Wheels, Power, and Wiring 9. Chapter 7: Drive and Turn – Moving Motors with Python 10. Chapter 8: Programming Distance Sensors with Python 11. Chapter 9: Programming RGB Strips in Python 12. Chapter 10: Using Python to Control Servo Motors 13. Chapter 11: Programming Encoders with Python 14. Chapter 12: IMU Programming with Python 15. Section 3: Hearing and Seeing – Giving a Robot Intelligent Sensors
16. Chapter 13: Robot Vision – Using a Pi Camera and OpenCV 17. Chapter 14: Line-Following with a Camera in Python 18. Chapter 15: Voice Communication with a Robot Using Mycroft 19. Chapter 16: Diving Deeper with the IMU 20. Chapter 17: Controlling the Robot with a Phone and Python 21. Section 4: Taking Robotics Further
22. Chapter 18: Taking Your Robot Programming Skills Further 23. Chapter 19: Planning Your Next Robot Project – Putting It All Together 24. Other Books You May Enjoy

Competitive, educational, and hobby robots

The most fun robots are those created by amateur robot builders. This is an extremely innovative space.

Robotics always had a home in education, with academic builders using them for learning and experimentation platforms. Many commercial ventures have started in this setting. University robots are often group efforts, with access to hi-tech equipment to create them:

Figure 1.9 – Kismet [Jared C Benedict CC BY-SA 2.5 https://creativecommons.org/licenses/by-sa/2.5] and OhBot [AndroidFountain [CC BY-SA 4.0 (https://creativecommons.org/licenses/by-sa/4.0)]]

Kismet (Figure 1.9 picture 1) was created at MIT in the late 90s. Several hobbyist robots are derived from it. It was groundbreaking at the time, using motors to drive face movements mimicking human expressions. OhBot, a low-priced hobbyist kit using servo motors, is based on Kismet. OhBot (Figure 1.9 picture 2) links with a Raspberry Pi, using voice recognition and camera processing to make a convincing face.

Hobby robotics is strongly linked with the open source software/hardware community, making use of sites such as GitHub (https://github.com) for sharing designs, and code, leading to further ideas. Hobbyist robots can be created from kits available on the internet, with modifications and additions. The kits cover a wide range of complexity, from simple three-wheeled bases to drone kits and hexapods. They come with or without the electronics included. An investigation of kits will be covered in Chapter 6, Building Robot Basics – Wheels, Power, and Wiring. I used a hexapod kit to build SpiderBot (Figure 1.10) to explore the walking motion:

Figure 1.10 – Spiderbot, made by me, based on a kit. The controller is an esp8266 + Adafruit 16 Servo Controller

Skittlebot was my Pi Wars 2018 entry, built using toy hacking, repurposing a remote control excavator toy into a robot platform. Pi Wars is an autonomous robotics challenge for Raspberry Pi-based robots, with both manual and autonomous challenges. There were entries with decorative cases and resourceful engineering. Skittlebot (Figure 1.11) uses three distance sensors to avoid walls, and we will investigate this kind of sensor in Chapter 8, Programming Distance Sensors with Python. Skittlebot uses a camera to find colored objects, as we will see in Chapter 13, Robot Vision – Using a Pi Camera and OpenCV:

Figure 1.11 – Skittlebot – My PiWars 2018 Robot, based on a toy

Some hobbyist robots are built from scratch, using 3D printing, laser cutting, vacuum forming, woodwork, CNC, and other techniques to construct the chassis and parts:

Figure 1.12 – Building ArmBot

I built the robot in Figure 1.12 from scratch, for the London robotics group The Aurorans, in 2009. The robot was known as EeeBot in 2009 since it was intended to be driven by an Eee PC laptop. The Aurorans were a community that met to discuss robotics. The robot was later given a Raspberry Pi, and a robot arm kit (the uArm) seemed to fit, earning it the name ArmBot.

In the current market, there are many chassis kits, and a beginner will not need to measure and cut materials in this way to make a functioning robot. These are built to experiment on, and to inspire other robot builders and kids to code. Toward the end of the book, we will cover some of the communities where robots are being built and shared, along with starting points on using construction techniques to make them from scratch.

The television series Robot Wars is a well-known competitive robot event with impressive construction and engineering skills. There is no autonomous behavior in Robot Wars, though; they are manually driven like remote control cars. Washing machines, although less exciting, are smarter, so they could be more strictly considered robots.

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Learn Robotics Programming - Second Edition
Published in: Feb 2021
Publisher: Packt
ISBN-13: 9781839218804
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