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Hands-On ROS for Robotics Programming

You're reading from   Hands-On ROS for Robotics Programming Program highly autonomous and AI-capable mobile robots powered by ROS

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Product type Paperback
Published in Feb 2020
Publisher Packt
ISBN-13 9781838551308
Length 432 pages
Edition 1st Edition
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Author (1):
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Bernardo Ronquillo Japón Bernardo Ronquillo Japón
Author Profile Icon Bernardo Ronquillo Japón
Bernardo Ronquillo Japón
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Toc

Table of Contents (19) Chapters Close

Preface 1. Section 1: Physical Robot Assembly and Testing
2. Assembling the Robot FREE CHAPTER 3. Unit Testing of GoPiGo3 4. Getting Started with ROS 5. Section 2: Robot Simulation with Gazebo
6. Creating the Virtual Two-Wheeled ROS Robot 7. Simulating Robot Behavior with Gazebo 8. Section 3: Autonomous Navigation Using SLAM
9. Programming in ROS - Commands and Tools 10. Robot Control and Simulation 11. Virtual SLAM and Navigation Using Gazebo 12. SLAM for Robot Navigation 13. Section 4: Adaptive Robot Behavior Using Machine Learning
14. Applying Machine Learning in Robotics 15. Machine Learning with OpenAI Gym 16. Achieve a Goal through Reinforcement Learning 17. Assessment 18. Other Books You May Enjoy

Configuring the environment file

In step 2 of the preceding algorithmic description of the start_training.py script, ROS parameters are loaded into the model. Their definitions come from this line of the start_training.launch file:

<rosparam command="load" file="$(find cartpole_dqn)/config/cartpole_dqn_params.yaml" />

When executing this part, the parameters in the cartpole_dqn_params.yaml file are loaded into memory and are available to the cartpole_dqn.py script. The more relevant are the following:

alpha = rospy.get_param('/cartpole_v0/alpha')
gamma = rospy.get_param('/cartpole_v0/gamma')
epsilon = rospy.get_param('/cartpole_v0/epsilon')

cartpole_v0 is the namespace that is declared before the definitions in the yaml file. The meaning of every parameter was covered in the Self driving cab example using RL algorithm subsection...

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