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Artificial Intelligence for Robotics - Second Edition

You're reading from Artificial Intelligence for Robotics - Second Edition

Product type Book

Published in Mar 2024

Publisher Packt

ISBN-13 9781805129592

Pages 344 pages

Edition 2nd Edition

Languages

Concepts

Author (1):

Francis X. Govers III

Table of Contents (18) Chapters

Preface

1. Part 1: Building Blocks for Robotics and Artificial Intelligence

2. Chapter 1: The Foundation of Robotics and Artificial Intelligence

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

Why subscribe?

16. Other Books You May Enjoy

Appendix

Questions

Regarding SLAM, what sensor is most commonly used to create the data that SLAM needs to make a map?
Why does SLAM work better with wheel odometer data available?
In the Floor Finder algorithm, what does the Gaussian blur function do to improve the results?
The final step in the Floor Finder is to trace upward from the robot position to the first red pixel. In what other way can this step be accomplished (referring to Figure 7.3)?
Why did we cut the image in half horizontally before doing our neural network processing?
What advantages does using the neural network approach provide that a technique such as SLAM does not?
If we used just a random driving function instead of the neural network, what new program or function would we have to add to the robot to achieve the same results?
How did we end up avoiding the stairs in the approach presented in the chapter? Do you feel this is adequate? Would you suggest any other means for accomplishing...

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Authors (1)

Francis X. Govers III

Francis X. Govers III is an Associate Technical Fellow for Autonomy at Bell Textron, and chairman of the Textron Autonomy Council. He is the designer of over 30 unmanned vehicles and robots for land, sea, air, and space, including RAMSEE, the autonomous security guard robot. Francis helped lead the design of the International Space Station, the F-35 JSF Fighter, the US Army Future Combat Systems, and telemetry systems for NASCAR and IndyCar. He is an engineer, pilot, author, musician, artist, and maker. He received five outstanding achievement awards from NASA and recognition from Scientific American for World Changing Ideas. He has a Master of Science degree from Brandeis University and is a veteran of the US Air Force.

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