Online Course – Certified Professional Internship in Collaborative Robotics in Industry by L&T EduTech

Collaborative Robotics in Industry: Understand the intricacies of robotic automation, its benefits, advanced technologies, and their impact on production and processes.

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קורס אונליין - התמחות מקצועית מוסמכת ברובוטיקה שיתופית בתעשייה של L&T EduTech

Professional Certificate

Intermediate level

No prior knowledge required

Time to complete the course

7-day free trial

No unnecessary risks

Skills you will acquire in the course

  • Engineering principles for developing robotic systems
  • Maintaining digital control circuits and sensor technologies
  • Analytical tools for designing robotic systems
  • Integrating mechanical components with digital control circuits
  • Real-time monitoring and control
  • Adaptation to different production environments
  • Using MATLAB-Simulink to solve problems
  • Precise and efficient control of robots
  • Automation and quality control
  • Improving efficiency in collaborative robotics systems
  • Robotic Manipulator Design
  • Appropriate end effector design
  • Creating an interface with the electronic control system
  • Use of electro-hydraulic systems for heavy loads
  • Preparing a work plan for project implementation
  • Connecting the supervised robot with a control system
  • Finding suitable IC components and essential elements in electronic circuits
  • Choosing Prototype Platforms (Arduino or Raspberry Pi)
  • Applying IIoT concepts
  • Choosing the right gateway and connectivity for monitoring management

What you will learn in the course

Courses for which the course is suitable

  • Automation Engineers
  • Robot designers
  • Mechatronics engineers
  • Robotic systems designers
  • Sensor technology experts
  • Electronics Systems Engineers
  • IIoT systems designers
  • Robotics project managers
  • Robot software developers
  • Industrial automation experts

Internship – Series of 3 courses

Collaborative Robotics in Industry combines traditional manufacturing with advanced robotics, providing participants with the skills to handle modern manufacturing. Basic knowledge of industrial manufacturing emphasizes the role of robotics in improving efficiency and accuracy.

Key issues

  • Introduction to Mechanics – Engineering Principles for Developing Robotic Systems.
  • Basic electronics – maintaining digital control circuits and sensor technologies.
  • Applied Physics – Analytical tools for designing robotic systems.
  • Designing robotic manipulators – combining mechanical components with digital control circuits.
  • Sensor technologies and data converters – real-time monitoring and control.
  • Drive systems – adaptation to different production environments.
  • Troubleshooting mechatronic systems – using MATLAB-Simulink.
  • Robot programming skills – precise and efficient control.
  • Robotic vision systems – automation and quality control.
  • Integration of IIoT technologies – improving efficiency in collaborative robotics systems.

Graduates find career opportunities as automation engineers and robot designers, shaping the future of manufacturing with innovation and efficiency.

Applied Learning Project

The projects offered in courses under the direction of “Collaborative Robotics in Industry” include a sequence of tasks in each project:

  • Robotic manipulator design.
  • Appropriate end effector design.
  • Creating an interface with the electronic control system.
  • Use of electro-hydraulic systems for heavy loads.
  • Preparing a work plan for project implementation.
  • Connecting the supervised robot with a control system.
  • Finding suitable IC components and essential elements in electronic circuits.
  • Choosing prototype platforms (Arduino or Raspberry Pi).
  • Applying IIoT concepts.
  • Selecting the right gateway and connectivity for monitoring management.

Details of the courses that make up the specialization

Fundamentals of Robotics and Industrial Automation

Course 1
9 hours
4.4 (20 ratings)

What you’ll learn

The course “Fundamentals of Robotics and Industrial Automation” is designed to provide a comprehensive understanding of essential concepts and practical skills necessary for success in the field of collaborative robotics. Through three dynamic modules, participants will explore the complexities of:

  • Sensors and conversions
  • Servo systems
  • Interface and simulation techniques

The course is designed to meet the learning needs of undergraduate students in mechanical and electromechanical engineering, students specializing in robotics and automation, and graduate students in mechanical engineering and computer-aided manufacturing engineering.

Skills you will gain

  • Robotic gripper design
  • Simulation using MATLAB-Simulink
  • Troubleshooting electromechanical systems
  • Interfacing mechanical components with digital control circuits
  • Design of robotic manipulators
  • Sensor and conversion technologies
  • Design of electromechanical systems

Robotics Engineering and Applications

Course 2
7 hours

What you’ll learn

The course “Robotics Engineering and Applications” is a source of innovation and opportunity in the field of collaborative robotics. The course includes three dynamic modules:

  • Fundamentals of Robot Engineering
  • Robot programming and vision systems
  • Design and construction of robots and applications

At the end of the course, participants will acquire essential skills for success in the field of collaborative robotics, including:

  • Robot design
  • Robot programming
  • IIoT application in robotics
  • Using computer vision in industrial processes
  • Robotic vision systems

Industrial fluid systems and automation in smart factories

Course 3
8 hours

What you’ll learn

The course “Industrial Fluid Systems and Automation in Smart Factories” offers a significant opportunity to explore the frontiers of fluid dynamics, electric motors, and smart automation technologies. The course includes three modules:

  • Fluid systems and electric drives
  • Fluid Circuit Design
  • Implementing automation solutions

During the course, participants will gain valuable knowledge that will help them succeed in an accelerated industry.

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