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Mastering ROS for Robotics Programming

You're reading from   Mastering ROS for Robotics Programming Design, build, and simulate complex robots using the Robot Operating System

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Product type Paperback
Published in Feb 2018
Publisher Packt
ISBN-13 9781788478953
Length 580 pages
Edition 2nd 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 (17) Chapters Close

Preface 1. Introduction to ROS FREE CHAPTER 2. Getting Started with ROS Programming 3. Working with 3D Robot Modeling in ROS 4. Simulating Robots Using ROS and Gazebo 5. Simulating Robots Using ROS and V-REP 6. Using the ROS MoveIt! and Navigation Stack 7. Working with pluginlib, Nodelets, and Gazebo Plugins 8. Writing ROS Controllers and Visualization Plugins 9. Interfacing I/O Boards, Sensors, and Actuators to ROS 10. Programming Vision Sensors Using ROS, Open CV, and PCL 11. Building and Interfacing Differential Drive Mobile Robot Hardware in ROS 12. Exploring the Advanced Capabilities of ROS-MoveIt! 13. Using ROS in MATLAB and Simulink 14. ROS for Industrial Robots 15. Troubleshooting and Best Practices in ROS 16. Other Books You May Enjoy

Working with AR Marker detection for object pose estimation


In this section, we will see how to use fiducial markers in order to enable a robot to easily interact with its environment. To interact with arbitrary objects, a robot should be able to recognize and localize them by relying on its vision sensors. Estimating the pose of an object represents an important feature of all robotic and computer-vision applications. However, efficient algorithms to perform object recognition and pose estimation working in real-world environments are difficult to implement, and in many cases one camera is not enough to retrieve the three-dimensional pose of an object.

More precisely, with the use of only one fixed camera, it is not possible to get spatial information about the depth of a framed scene. For this reason, object pose estimation is often simplified by exploiting AR markers. An AR marker is typically represented by a synthetic square image composed by a wide black border and an inner binary matrix...

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