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ROS Robotics By Example, Second Edition

You're reading from   ROS Robotics By Example, Second Edition Learning to control wheeled, limbed, and flying robots using ROS Kinetic Kame

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Product type Paperback
Published in Nov 2017
Publisher Packt
ISBN-13 9781788479592
Length 484 pages
Edition 2nd Edition
Languages
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Concepts
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Authors (3):
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Dr. Thomas L. Harman Dr. Thomas L. Harman
Author Profile Icon Dr. Thomas L. Harman
Dr. Thomas L. Harman
Lentin Joseph Lentin Joseph
Author Profile Icon Lentin Joseph
Lentin Joseph
Carol Fairchild Carol Fairchild
Author Profile Icon Carol Fairchild
Carol Fairchild
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Table of Contents (12) Chapters Close

Preface 1. Getting Started with ROS 2. Creating Your First Two-Wheeled ROS Robot (in Simulation) FREE CHAPTER 3. Driving Around with TurtleBot 4. Navigating the World with TurtleBot 5. Creating Your First Robot Arm (in Simulation) 6. Wobbling Robot Arms Using Joint Control 7. Making a Robot Fly 8. Controlling Your Robots with External Devices 9. Flying a Mission with Crazyflie 10. Controlling Baxter with MATLAB© Index

Inverse kinematics


Using forward kinematics, we can determine the position of the gripper at any time. The inverse kinematic problem is to place the gripper at a desired location and orientation. This requires the calculation of the joint angles, then sending Baxter the seven joint angles and commanding the arm to move.

Rethink Robotics provides an Inverse Kinematic (IK) example that sets a specific endpoint position and orientation in the script and solves the required joint angles. The example and the Python script are described on these websites:

To run the IK example to find the joint angles of the left limb (arm) for the fixed position and orientation in the Python script, type this command:

$ rosrun baxter_examples ik_service_client.py -l left

The pose of the left end-effector taken from the ik_service_client.py script is as follows:

 'left': PoseStamped(
       ...
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