Robotics and ROS 2 – Learn by Doing! Manipulators

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Robotics and ROS 2 - Learn by Doing! Manipulators [TutsNode.org] - Robotics and ROS 2 - Learn by Doing! Manipulators 7. Application
  • 10. C++Task ServerC++.mp4 (337.9 MB)
  • 4. C++Create an Action ServerC++.mp4 (325.4 MB)
  • 6. C++Create an Action ClientC++.mp4 (263.0 MB)
  • 8. C++MoveIt! 2 APIC++.mp4 (164.3 MB)
  • 3. PYCreate an Action ServerPY.mp4 (131.3 MB)
  • 5. PYCreate an Action ClientPY.mp4 (130.0 MB)
  • 2. ROS 2 Actions.mp4 (43.0 MB)
  • 1. Application Layer.mp4 (31.5 MB)
  • 7. MoveIt! 2 API.mp4 (19.5 MB)
  • 9. Task Server.mp4 (12.8 MB)
2. Setup
  • 2. Install Ubuntu on Dual Boot.html (7.1 KB)
  • 1. Install Ubuntu on Virtual Machine.html (5.7 KB)
  • 4. Configure the Development Environment.mp4 (77.7 MB)
  • 3. Install ROS 2 on Ubuntu.mp4 (44.8 MB)
1. Introduction
  • 6. Course Material.html (2.3 KB)
  • 6.2 CAD.zip (121.6 MB)
  • 1. Course Motivation.mp4 (57.0 MB)
  • 5. Course Presentation.mp4 (37.6 MB)
  • 4. Project Architecture.mp4 (28.6 MB)
  • 3. Get the Most out of the Course.mp4 (23.3 MB)
  • 2. Meet your Teacher.mp4 (15.3 MB)
  • 6.3 STL_3D_Print.zip (5.0 MB)
  • 6.4 STL_Gazebo.zip (4.9 MB)
  • 6.1 BOM.zip (2.6 MB)
9. Build the Robot
  • 16. C++ros2_control Interface - DefinitionC++.mp4 (269.9 MB)
  • 13. C++Create a Lifecycle NodeC++.mp4 (172.9 MB)
  • 18. LABros2_control Interface - ConfigureLAB.mp4 (108.3 MB)
  • 5. C++Publisher Node with ArduinoC++.mp4 (94.5 MB)
  • 15. C++ros2_control Interface - DeclarationC++.mp4 (90.4 MB)
  • 19. HWLABRobot Control with ArduinoHWLAB.mp4 (87.2 MB)
  • 11. HWLABServomotors with ArduinoHWLAB.mp4 (85.2 MB)
  • 17. C++ros2_control Interface - PluginC++.mp4 (83.7 MB)
  • 20. HWLABLaunch the Complete RobotHWLAB.mp4 (68.2 MB)
  • 4. PYPublisher Node with ArduinoPY.mp4 (65.6 MB)
  • 9. C++Subscriber Node with ArduinoC++.mp4 (64.1 MB)
  • 8. PYSubscriber Node with ArduinoPY.mp4 (60.6 MB)
  • 14. LABROS 2 Lifecycle CLILAB.mp4 (59.5 MB)
  • 3. HWLABPublisher Node with ArduinoHWLAB.mp4 (55.8 MB)
  • 6. HWLABTest Publisher Node with ArduinoHWLAB.mp4 (41.2 MB)
  • 1. Mechanics and Electronics.mp4 (40.9 MB)
  • 12. ROS 2 Lifecycle Nodes.mp4 (39.9 MB)
  • 10. HWLABTest Subscriber Node with ArduinoHWLAB.mp4 (29.2 MB)
  • 2. Arduino and ROS 2.mp4 (23.8 MB)
  • 7. HWLABSubscriber Node with ArduinoHWLAB.mp4 (21.8 MB)
  • 1.1 STL 3D Print.zip (5.0 MB)
6. Kinematics
  • 20. C++Euler to Quaternion ServiceC++.mp4 (229.6 MB)
  • 24. LABLaunch MoveIt! 2LAB.mp4 (220.8 MB)
  • 19. PYEuler to Quaternion ServicePY.mp4 (213.1 MB)
  • 15. C++Service ClientC++.mp4 (142.0 MB)
  • 12. C++Service ServerC++.mp4 (132.3 MB)
  • 23. LABConfigure MoveIt! 2LAB.mp4 (108.9 MB)
  • 11. PYService ServerPY.mp4 (104.3 MB)
  • 14. PYService ClientPY.mp4 (98.2 MB)
  • 9. LABTF2 ToolsLAB.mp4 (94.9 MB)
  • 4. Elementary Rotations.mp4 (77.9 MB)
  • 1. Robot Kinematics.mp4 (42.5 MB)
  • 7. Forward Kinematics.mp4 (37.1 MB)
  • 21. Inverse Kinematics.mp4 (33.9 MB)
  • 2. Pose of a Robot Arm.mp4 (32.0 MB)
  • 3. Translation Vector.mp4 (30.1 MB)
  • 10. ROS 2 Services.mp4 (24.9 MB)
  • 22. MoveIt! 2.mp4 (23.0 MB)
  • 13. Static and Dynamic Transformations.mp4 (21.3 MB)
  • 6. Transformation Matrix.mp4 (20.7 MB)
  • 8. TF2 Library.mp4 (19.2 MB)
  • 18. Quaternion.mp4 (19.1 MB)
  • 17. Euler Angles.mp4 (18.1 MB)
  • 5. Rotation Matrix.mp4 (13.4 MB)
  • 16. Angle Representations.mp4 (9.1 MB)
8. Alexa Integration
  • 5. LABVoice Interaction ModelLAB.mp4 (173.1 MB)
  • 4. LABInterface the Robot with AlexaLAB.mp4 (109.1 MB)
  • 6. LABLaunch the Simulation of the RobotLAB.mp4 (87.4 MB)
  • 2. LABDevelop Alexa SkillsLAB.mp4 (86.8 MB)
  • 1. Alexa Skill.mp4 (41.9 MB)
  • 3. LABIntegrate Alexa SkillsLAB.mp4 (35.1 MB)
4. Digital Twin
  • 4. LABComplete the URDF ModelLAB.mp4 (156.2 MB)
  • 3. LABCreate the URDF ModelLAB.mp4 (155.9 MB)
  • 12. LABVisualize the Robot with Launch FilesLAB.mp4 (106.4 MB)
  • 8. C++ParametersC++.mp4 (94.3 MB)
  • 15. LABLaunch the SimulationLAB.mp4 (82.0 MB)
  • 14. LABSimulate the RobotLAB.mp4 (80.4 MB)
  • 7. PYParametersPY.mp4 (62.4 MB)
  • 10. LABVisualize the RobotLAB.mp4 (61.6 MB)
  • 5. RViz 2.mp4 (56.7 MB)
  • 9. LABROS 2 Parameter CLILAB.mp4 (49.5 MB)
  • 2. URDF.mp4 (34.9 MB)
  • 11. Launch Files.mp4 (30.1 MB)
  • 13. Gazebo.mp4 (27.8 MB)
  • 1. Robot Description.mp4 (21.1 MB)
  • 6. Parameters.mp4 (13.5 MB)
  • 3.1 arduinobot_meshes.zip.zip (4.9 MB)
3. Introduction to ROS 2
  • 12. C++Simple PublisherC++.mp4 (132.2 MB)
  • 11. PYSimple PublisherPY.mp4 (94.0 MB)
  • 14. C++Simple SubscriberC++.mp4 (92.8 MB)
  • 10. LABCreate and Activate a WorkspaceLAB.mp4 (77.9 MB)
  • 13. PYSimple SubscriberPY.mp4 (74.1 MB)
  • 3. Why a NEW Robot Operating System.mp4 (39.6 MB)
  • 8. Messaging Between Process.mp4 (31.7 MB)
  • 1. Why a Robot Operating System.mp4 (30.9 MB)
  • 4. ROS 2 Architecture.mp4 (18.1 MB)
  • 2. What is ROS 2.mp4 (16.6 MB)
  • 7. Architecture of a ROS 2 Application.mp4 (14.4 MB)
  • 5. Hardware Abstraction.mp4 (12.5 MB)
  • 9. Package Management.mp4 (8.2 MB)
  • 6. Low-Level Device Control.mp4 (6.1 MB)
5. Control
  • 3. LABros2_control with GazeboLAB.mp4 (116.6 MB)
  • 5. LABConfigure ros2_controlLAB.mp4 (72.5 MB)
  • 7. LABros2_control CLILAB.mp4 (62.5 MB)
  • 6. LABLaunch the ControllerLAB.mp4 (58.4 MB)

Description


Description

Would you like to learn ROS 2 , the second and last version of Robot Operating System by building a real robot?

The philosophy of this course is the Learn by Doing and quoting the American writer and teacher Dale Carnegie

Learning is an Active Process. We learn by doing, only knowledge that is used sticks in your mind.

In order for you to master the concepts covered in this course and use them in your projects or, why not, also in your future job, I will guide you through the learning of all the functionalities of ROS both from the theoretical and practical point of view.

Each section is composed of three parts:

Theoretical explanation of the concept and functionality
Usage of the concept in a simple Practical example
Application of the functionality in a real Robot

I almost forgot! We need one more, essential and exciting part of this course for your active learning!

Experiment, Develop and Test your ideas in the Robot (real or simulated in your PC)

In each Section of the course, I’ll introduce you a new concept and then we will use it to add new functionalities to the robot:

Introduction to the Course
Setup the Environment: Install Ubuntu and ROS Noetic
Introduction to ROS: What is ROS and why is so important in Robotics.Create the first ROS node
ROS Publisher/Subscriber
Digital Twin: Use a simulator to develop and test the functionalities of the robot without the need of any hardware device
URDF
Gazebo
Parameters
RViz2
Launch Files
Control: How to create a Control System for Robot actuators
Timer
Services
ros2_control
Kinematics: Use the package MoveIt! for the Trajectory Planning
TF2
MoveIt! 2
Application: Interface and make available all the functionalities of the robot to other software to create more complex applications and functionalities
Actions
Alexa: Use the Alexa Voice Assistant to actuate the robot with the voice
Build the Robot: Build the real robot and migrate all the functionalities from a simulated robot to a real one
Arduino IDE
Serial Communication
Conclusion and Summary of the course

To facilitate your learning and help you join the robotic world, the code lessons are available both in C++ and in Python and you can decide which language to use during the course.

Anyway, I would suggest you to follow both in order to complete your Robotics Software Developer profile!
Who this course is for:

Makers and Hobbists keen on robotics
Software developers taht wants to learn ROS 2 and Robotics
Students or Engineers that wants to learn how to buid a robot from scratch
Developers that already knows ROS 2 and that want to use it in a real world application
ROS Developers that want to learn and migrate to ROS 2

Requirements

Basic knowledge of Python or C++
Basic knowledge of Linux
No prior knowledge of ROS or ROS 2 required
No prior knowledge of Robotics theory required
No hardware required. All the course can be followed also using only the PC

Last Updated 8/2023



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Robotics and ROS 2 – Learn by Doing! Manipulators

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7.8 GB
seeders:47
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Robotics and ROS 2 – Learn by Doing! Manipulators

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