Book Image

ROS Robotics By Example, Second Edition - Second Edition

By : Carol Fairchild, Lentin Joseph, Dr. Thomas L. Harman
Book Image

ROS Robotics By Example, Second Edition - Second Edition

By: Carol Fairchild, Lentin Joseph, Dr. Thomas L. Harman

Overview of this book

ROS is a robust robotics framework that works regardless of hardware architecture or hardware origin. It standardizes most layers of robotics functionality from device drivers to process control and message passing to software package management. But apart from just plain functionality, ROS is a great platform to learn about robotics itself and to simulate, as well as actually build, your first robots. This does not mean that ROS is a platform for students and other beginners; on the contrary, ROS is used all over the robotics industry to implement flying, walking and diving robots, yet implementation is always straightforward, and never dependent on the hardware itself. ROS Robotics has been the standard introduction to ROS for potential professionals and hobbyists alike since the original edition came out; the second edition adds a gradual introduction to all the goodness available with the Kinetic Kame release. By providing you with step-by-step examples including manipulator arms and flying robots, the authors introduce you to the new features. The book is intensely practical, with space given to theory only when absolutely necessary. By the end of this book, you will have hands-on experience on controlling robots with the best possible framework.
Table of Contents (18 chapters)
ROS Robotics By Example Second Edition
Credits
About the Authors
About the Reviewer
www.PacktPub.com
Customer Feedback
Preface
Index

Summary


This chapter helped you to develop an understanding of how robot arms are modeled and controlled. We created a URDF/SDF for a simple three-link, two-joint robot arm to be used in a Gazebo simulation. Xacro was used to make the URDF/SDF modular and efficient. Mesh files were incorporated into the gripper design to give it a more realistic look. Control plugins and transmission elements were added to the robot model code to enable control of the robot arm in simulation. Then, ROS commands were used via the command-line and rqt tools to control the arm's position in Gazebo.

In Chapter 6, Wobbling Robot Arms Using Joint Control, we will extend our control of robot arms to the 7-DOF dual-armed Baxter. You will learn multiple ways to command and control Baxter's arms using both forward kinematic and inverse kinematic methods.