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Mastering ROS for Robotics Programming, Third edition

You're reading from   Mastering ROS for Robotics Programming, Third edition Best practices and troubleshooting solutions when working with ROS

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Product type Paperback
Published in Oct 2021
Publisher Packt
ISBN-13 9781801071024
Length 594 pages
Edition 3rd Edition
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Authors (2):
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Lentin Joseph Lentin Joseph
Author Profile Icon Lentin Joseph
Lentin Joseph
Jonathan Cacace Jonathan Cacace
Author Profile Icon Jonathan Cacace
Jonathan Cacace
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Table of Contents (22) Chapters Close

Preface 1. Section 1 – ROS Programming Essentials
2. Chapter 1: Introduction to ROS FREE CHAPTER 3. Chapter 2: Getting Started with ROS Programming 4. Section 2 – ROS Robot Simulation
5. Chapter 3: Working with ROS for 3D Modeling 6. Chapter 4: Simulating Robots Using ROS and Gazebo 7. Chapter 5: Simulating Robots Using ROS, CoppeliaSim, and Webots 8. Chapter 6: Using the ROS MoveIt! and Navigation Stack 9. Chapter 7: Exploring the Advanced Capabilities of ROS MoveIt! 10. Chapter 8: ROS for Aerial Robots 11. Section 3 – ROS Robot Hardware Prototyping
12. Chapter 9: Interfacing I/O Board Sensors and Actuators to ROS 13. Chapter 10: Programming Vision Sensors Using ROS, OpenCV, and PCL 14. Chapter 11: Building and Interfacing Differential Drive Mobile Robot Hardware in ROS 15. Section 4 – Advanced ROS Programming
16. Chapter 12: Working with pluginlib, nodelets, and Gazebo Plugins 17. Chapter 13: Writing ROS Controllers and Visualization Plugins 18. Chapter 14: Using ROS in MATLAB and Simulink 19. Chapter 15: ROS for Industrial Robots 20. Chapter 16: Troubleshooting and Best Practices in ROS 21. Other Books You May Enjoy

Chapter 8: ROS for Aerial Robots

In previous chapters, we have considered only ground-based and industrial robots. In the last decade, a new kind of system has become very popular – flying robots, also known as Unmanned Aerial Vehicles (UAVs). Nowadays, UAVs are constructed in different shapes and dimensions. In the main, they can be divided into fixed-wing (these being airplane-like vehicles) and rotary-wing (these being vehicles with multiple vertical axis rotors). Modern UAVs are equipped with onboard computers and sensors that make them real autonomous robots, able to perform different tasks, such as autonomous navigation. Using ROS makes it possible to read a UAV's sensors and send commands to the aerial platform. In addition to the real-life devices, it is also possible to use Gazebo to simulate the hardware and the sensors of different kinds of aerial systems.

This chapter is divided into two sections. First, we will discuss the basic components of aerial robots...

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