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Practical Arduino Robotics

You're reading from   Practical Arduino Robotics A hands-on guide to bringing your robotics ideas to life using Arduino

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Product type Paperback
Published in Mar 2023
Publisher Packt
ISBN-13 9781804613177
Length 334 pages
Edition 1st Edition
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Author (1):
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Lukas Kaul Lukas Kaul
Author Profile Icon Lukas Kaul
Lukas Kaul
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Table of Contents (21) Chapters Close

Preface 1. Part 1: Selecting the Right Components for Your Robots
2. Chapter 1: Introducing Robotics and the Arduino Ecosystem FREE CHAPTER 3. Chapter 2: Making Robots Perceive the World with Sensors 4. Chapter 3: Making Your Robot Move and Interact with the World with Actuators 5. Chapter 4: Selecting the Right Arduino Board for Your Project 6. Part 2: Writing Effective and Reliable Robot Programs for Arduino
7. Chapter 5: Getting Started with Robot Programming 8. Chapter 6: Understanding Object-Oriented Programming and Creating Arduino Libraries 9. Chapter 7: Testing and Debugging with the Arduino IDE 10. Part 3: Building the Hardware, Electronics, and UI of Your Robot
11. Chapter 8: Exploring Mechanical Design and the 3D Printing Toolchain 12. Chapter 9: Designing the Power System of Your Robot 13. Chapter 10: Working with Displays, LEDs, and Sound 14. Chapter 11: Adding Wireless Interfaces to Your Robot 15. Part 4: Advanced Example Projects to Put Your Robotic Skills into Action
16. Chapter 12: Building an Advanced Line-Following Robot Using a Camera 17. Chapter 13: Building a Self-Balancing, Radio-Controlled Telepresence Robot 18. Chapter 14: Wrapping Up, Next Steps, and a Look Ahead 19. Index 20. Other Books You May Enjoy

Blocking and non-blocking function calls

To successfully implement cooperative multitasking, each line of code needs to execute extremely fast and not tie up the CPU for any significant amount of time. A slightly more technical way of stating this is to say that all the function calls inside the cooperative multitasking framework need to be non-blocking, as opposed to blocking.

A non-blocking function will always do its best to return immediately, and the time it takes for it to return is going to be predictable and very short. Nothing inside a non-blocking function needs to wait for something else. The blink_task() function in the last example is a good sample of a non-blocking function. Nothing in it needs to wait, and we can be confident that the function returns virtually immediately.

In contrast, a blocking function will start a process that can take an (unpredictable) amount of time. Examples of this are using the delay() function or waiting to receive a certain number...

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