
Online or onsite, instructor-led live Robotics training courses demonstrate through interactive hands-on practice the fundamentals and advanced concepts of Robotics.
Robotics training is available as "online live training" or "onsite live training". Online live training (aka "remote live training") is carried out by way of an interactive, remote desktop. Onsite live Robotics trainings in Finland can be carried out locally on customer premises or in NobleProg corporate training centers.
NobleProg -- Your Local Training Provider
Testimonials
The trainer's knowledge was clearly very good and when you specifically asked for help he was very helpful.
Coventry University
Course: ROS: Programming for Robotics
The use of VM
Coventry University
Course: ROS: Programming for Robotics
I feel I get the core skills I need to understand how the ROS fits together, and how to structure projects in it.
Dan Goldsmith - Coventry University
Course: ROS: Programming for Robotics
The combination of theory and practice, and the fact that the course guides you smoothly through content that would otherwise take you quite some time and frustration to go through yourself.
NLR; NLR
Course: Drone Programming with ArduPilot
The trainer is very skilled and the virtual desktop environment worked fine.
NLR; NLR
Course: Drone Programming with ArduPilot
Good prepared, communication and work environment on-line worked pretty smooth. Although we did not have the right pre course requirement, the trainer had a lot of patient to help us where needed.
NLR; NLR
Course: Drone Programming with ArduPilot
Robotics Subcategories in Finland
Robotics Course Outlines in Finland
- Understand how robotics is applied in welding.
- Develop proficiency in programming the ABB IRB 2600ID robot for various welding tasks.
- Learn to safely and effectively operate the ABB IRB 2600ID robot.
- Understand the safety standards and procedures relevant to robotic welding operations.
- Understand the concept of energy and conduction band diagrams.
- Understand the internal structure of diodes and how they work.
- Have an in-depth understanding of intrinsic and extrinsic semiconductors.
- Know how electronic devices like diodes and transistors work.
- Analyze the carrier statistics in semiconductors.
- Understand the carrier dynamics of semiconductors and their resulting conduction properties.
- Implement filters (Kalman and particle) to enable the robot to locate moving objects in its environment.
- Implement search algorithms and motion planning.
- Implement PID controls to regulate a robot's movement within an environment.
- Implement SLAM algorithms to enable a robot to map out an unknown environment.
- Understand the key concepts used in robotic technologies.
- Understand and manage the interaction between software and hardware in a robotic system.
- Understand and implement the software components that underpin robotics.
- Build and operate a simulated mechanical robot that can see, sense, process, navigate, and interact with humans through voice.
- Understand the necessary elements of artificial intelligence (machine learning, deep learning, etc.) applicable to building a smart robot.
- Implement filters (Kalman and Particle) to enable the robot to locate moving objects in its environment.
- Implement search algorithms and motion planning.
- Implement PID controls to regulate a robot's movement within an environment.
- Implement SLAM algorithms to enable a robot to map out an unknown environment.
- Extend a robot's ability to perform complex tasks through Deep Learning.
- Test and troubleshoot a robot in realistic scenarios.
- Understand the key concepts used in robotic technologies.
- Understand and manage the interaction between software and hardware in a robotic system.
- Understand and implement the software components that underpin robotics.
- Build and operate a simulated mechanical robot that can see, sense, process, navigate, and interact with humans through voice.
- Understand the necessary elements of artificial intelligence (machine learning, deep learning, etc.) applicable to building a smart robot.
- Implement filters (Kalman and Particle) to enable the robot to locate moving objects in its environment.
- Implement search algorithms and motion planning.
- Implement PID controls to regulate a robot's movement within an environment.
- Implement SLAM algorithms to enable a robot to map out an unknown environment.
- Test and troubleshoot a robot in realistic scenarios.
- Build and operate a robotic system that includes both software and hardware components
- Understand the key concepts used in robotic technologies
- Assemble motors, sensors and microcontrollers into a working robot
- Design the mechanical structure of a robot
- Developers
- Engineers
- Hobbyists
- Part lecture, part discussion, exercises and heavy hands-on practice
- Hardware kits will be specified by the instructor before the training, but will roughly contain the following components:
- Arduino board
- Motor controller
- Distance sensor
- Bluetooth slave
- Prototyping board and cables
- USB cable
- Vehicle kit
- Participants will need to purchase their own hardware.
- If you wish to customize this training, please contact us to arrange.
- Install and configure ROS-Industrial
- Implement motion and path planning on ROS-I using tools such as MoveIt! and Descartes
- Create simple ROS-I applications
- Build, test, deploy, and troubleshoot a new robot with ROS-I
- Programmers
- Developers
- Engineers
- Part lecture, part discussion, exercises and heavy hands-on practice
- To request a customized training for this course, please contact us to arrange.
- Install and configure UiPath IPA.
- Enable robots to manage other robots.
- Apply computer vision to locate screen objects with accuracy.
- Enable robots that can detect language patterns and carry out sentiment analysis on unstructured content.
- Learn the fundamentals of intelligent bots
- Learn how to create intelligent bots using cloud applications
- Understand how to use the Microsoft Bot Framework, the Bot Builder SDK, and the Azure Bot Service
- Understand how to design bots using bot patterns
- Develop their first intelligent bot using Microsoft Azure
- Developers
- Hobbyists
- Engineers
- IT Professionals
- Part lecture, part discussion, exercises and heavy hands-on practice
- Understand the different uses and applications of bots
- Understand the complete process in developing bots
- Explore the different tools and platforms used in building bots
- Build a sample chatbot for Facebook Messenger
- Build a sample chatbot using Microsoft Bot Framework
- Developers interested in creating their own bot
- Part lecture, part discussion, exercises and heavy hands-on practice
- Gain an overview of artificial intelligence, machine learning, and computational intelligence.
- Understand the concepts of neural networks and different learning methods.
- Choose artificial intelligence approaches effectively for real-life problems.
- Implement AI applications in mechatronic engineering.
- Understand the key concepts used in robotic technologies
- Understand and manage the interaction between software and hardware in a robotic system
- Understand and implement the software components that underpin Smart Robots
- Build and operate a simulated mechanical Smart Robot that can see, sense, process, grasp, navigate, and interact with humans through voice
- Extend a Smart Robot's ability to perform complex tasks through Deep Learning
- Test and troubleshoot a Smart Robot in realistic scenarios
- Developers
- Engineers
- Part lecture, part discussion, exercises and heavy hands-on practice
- To customize any part of this course (programming language, robot model, etc.) please contact us to arrange.
- Understand the basics of ROS.
- Learn how to create a basic robotics project using ROS.
- Learn how to use different tools for robotics including simulation and visualization tools.
- Setup a suitable development environment.
- Select and apply the right tools for programming a drone.
- Understand and configure the firmware, middleware and API stack.
- Test and debug their code using drone simulation software.
- Understand the basics of aerial robotics.
- Model and design UAVs and quadrotors.
- Learn about the basics of flight control and motion planning.
- Learn how to use different simulation tools for aerial robotics.
- Gain fundamental knowledge of UAVs and drones.
- Learn about drone classifications and uses to find suitable UAVs that address different needs.
- Evaluate delivery options and regulations for the convenient operation of drones.
- Understand the risks and ethics of using drone technology.
- Explore future uses and capabilities of UAVs including integration with other technologies.
- Understand drone technology and regulations related to it.
- Deploy drones to acquire, process, and analyze crop data to improve farming and agricultural methods.
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