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Artificial Intelligence for Robotics

You're reading from   Artificial Intelligence for Robotics Build intelligent robots using ROS 2, Python, OpenCV, and AI/ML techniques for real-world tasks

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Product type Paperback
Published in Mar 2024
Publisher Packt
ISBN-13 9781805129592
Length 344 pages
Edition 2nd Edition
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Author (1):
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Francis X. Govers III Francis X. Govers III
Author Profile Icon Francis X. Govers III
Francis X. Govers III
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Table of Contents (18) Chapters Close

Preface 1. Part 1: Building Blocks for Robotics and Artificial Intelligence
2. Chapter 1: The Foundation of Robotics and Artificial Intelligence FREE CHAPTER 3. Chapter 2: Setting Up Your Robot 4. Chapter 3: Conceptualizing the Practical Robot Design Process 5. Part 2: Adding Perception, Learning, and Interaction to Robotics
6. Chapter 4: Recognizing Objects Using Neural Networks and Supervised Learning 7. Chapter 5: Picking Up and Putting Away Toys using Reinforcement Learning and Genetic Algorithms 8. Chapter 6: Teaching a Robot to Listen 9. Part 3: Advanced Concepts – Navigation, Manipulation, Emotions, and More
10. Chapter 7: Teaching the Robot to Navigate and Avoid Stairs 11. Chapter 8: Putting Things Away 12. Chapter 9: Giving the Robot an Artificial Personality 13. Chapter 10: Conclusions and Reflections 14. Answers 15. Index 16. Other Books You May Enjoy Appendix

Summary

This chapter introduced some concepts for robot navigation in an unstructured environment, which is to say, in the real world, where the designers of the robot don’t have control over the content of the space. We started by introducing SLAM, along with some of the strengths and weaknesses of map-based navigation. We talked about how Roomba navigates, by random interaction and statistical models. The method selected for our toy-gathering robot project, Albert, combined two algorithms that both relied mostly on vision sensors.

The first was the Floor Finder, a technique I learned when it was used by the winning entry in the DARPA Grand Challenge. The Floor Finder algorithm uses the near vision (next to the robot) to teach the far vision (away from the robot) what the texture of the floor is. We can then divide the room into things that are safe to drive on, and things that are not safe. This deals with our obstacle avoidance. Our navigation technique used a trained...

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