KUKA Certified Industrial Robotics Courses

The centre aims to train engineering students of all disciplines up to the Industry expectations and foster research in the field of applied robotics.

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AKGEC Skills : Empowering Tomorrow

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AKGEC jointly with KUKA Robotics (India) has set up India’s first Industrial Robotics Training Centre for Educational Institutions at AKGEC, Ghaziabad. The centre was inaugurated on 5th May, 2011 and operational since then.

Our Aim

The Centre aims to train young engineering graduates and diploma students of all engineering disciplines up to the Industry expectations and foster research in applied robotics field.

Our Objective

The primary objective of the centre is to encourage young professionals to take up this cross disciplinary field as a career of their choice and acquaint them with latest technological developments in the field of Industrial Robotics.

Why Robotics Course?

  • High Demand for Skilled Professionals: The industrial robotics sector is rapidly expanding across various industries including manufacturing, automotive, electronics, and healthcare, ensuring job security for skilled professionals.
  • Diverse Career Opportunities: Careers range from robotics engineers and programmers to maintenance technicians and research scientists, offering pathways across mechanical engineering, electrical engineering, computer science, and AI.
  • Competitive Salaries: Robotics professionals often enjoy lucrative compensation due to the specialized skills required and work with cutting-edge technology.
  • Technological Advancement: Work with AI, machine learning, and IoT, contributing to innovative solutions and continuous learning opportunities.
  • Impact on Society: Enhance efficiency, productivity, workplace safety, and product quality while contributing to sustainable production processes and global work cultures.
  • Entrepreneurial Opportunities: Potential to start robotics companies or work on innovative projects within organizations.

  • Increased Automation: Industry 4.0 transformation and growth in collaborative robots (cobots) are expected to drive demand for advanced robotics skills.
  • Advancements in AI and Machine Learning: Future robots will become more autonomous and intelligent, integrating with IoT for real-time monitoring and predictive maintenance.
  • Expanding Applications: From healthcare and agriculture to service robotics in hospitality and retail, robotics applications are diversifying rapidly.
  • Sustainability and Green Technology: Robotics can contribute to eco-friendly manufacturing and renewable energy sectors.
  • Education and Research: Increased focus on robotics in academic institutions and development of innovation hubs will drive technological advancements.
  • Global Collaboration: International projects and partnerships will shape global standards and policies for ethical robotics use.

  • Market Growth and Demand: The global industrial robotics market was valued at USD 43.8 billion in 2020, projected to reach USD 70.6 billion by 2026, with a growing CAGR of 8.6%.
  • Robot Density: Robot density has increased globally, emphasizing adoption in industries like automotive, electronics, and beyond.
  • Employment and Workforce: Robotics adoption is expected to create over 2 million new jobs by 2030, with significant salary growth in robotics-related roles.
  • Industry Adoption and Trends: Automotive remains the largest adopter, with emerging sectors like logistics and pharmaceuticals rapidly integrating robotics.
  • Educational Impact: Robotics programs and enrollments in universities and online platforms have surged, enhancing STEM education and student engagement.
  • Economic Impact: Companies report productivity gains and GDP contributions through robotics integration in operations.
  • Future Prospects: The collaborative robot market and AI integration in robotics are poised for exponential growth, indicating sustained demand.

Want to Know More About the Robotics Course?

Training Programs

ABOUT AKGEC-KUKA

Objective

The objective of this training is to acquire all basic skills necessary for programming industrial robots.

Course Content

  • Introduction to Robotics
  • Classification and Applications of Robots
  • Safety Instruction for the KUKA Robot
  • Operating the Robot System
  • Knowledge and Usage of Coordinate Systems
  • Methods of Tool Calibration and Tool Payload
  • Mastering: Calibrating a Work Piece
  • Usage of the Navigator
  • Creating Programs and Archiving
  • Usage of Motion Programming
  • Insert, Delete, and Manipulate Points; Limited Position Correction
  • Usage of Logic and Gripper Programming
  • Work with Automatic Mode

Training Outcomes

  • Understand the importance of robotics in today and future goods production.
  • Demonstrate robot safety and awareness of various components of an industrial robot.
  • Understand the principles and basic functions of robots.
  • Power up and jog the robot independently.
  • Recover from common program and robot faults.
  • Create, modify, and execute a teach pendant program.
  • Backup and restore individual programs and files.

Objective

Building on the “Basic Robot Programming” training, this seminar focuses on advanced aspects such as the KRL programming language, structuring, and documentation of robot programs.

Course Content

  • Language elements of the KRL programming language
  • FOLD concept
  • Flow Chart
  • Editing facilities
  • Data concept
  • Use of subprograms
  • Check structures
  • Motion instructions
  • Digital I/O instructions
  • Signal exchange with a higher-level PLC
  • Configuring the Automatic External interface
  • Gripper configuration
  • Advance Robot Simulation on SIMPRO software

Training Outcomes

  • Understand different methods of protecting workers from industrial robot accidents.
  • Understand the functions and characteristics of the different components of an industrial robot.
  • Understand the function of structured programming, their methodology & conceptualization.
  • Use the fundamental concepts of Variables, subprograms, function, Data list & Data manipulation in robotic programming.
  • Select applications specific end effector with respect to its use.
  • Perform troubleshooting process and identify problems and their causes.

Success Stories

Rahul Kumar did his B.Tech in Automation and Robotics from Gulzar group of Institute Ludhiana. He pursued Basic and advance level Industrial Robotic Course from AKGEC-KUKA. Presently he is working as Robot Programmer at YMCA Faridabad.

Rahul
Rahul Kumar

Robot programmer, YMCA Faridabad

I did my Basic and advance course in industrial robotics at AKGEC during 2010 and 2011. In 2013, I started working as a Robotics programmer at Rhythmsoft, Nashik. Currently I am employed at FANUC Robotics, India.

Mr. Nikhil Kumar
Mr. Nikhil Kumar

Sr. Engineer, FANUC India Pvt. Ltd.

He completed his Robotic Certification on Basic & Advance at AKGEC. He joined KUKA Robotics India and served as Service Engineer for three years. Presently he is working as Sales Engineer at Adverb Technologies, Noida.

Mr. Saransh Gupta
Mr. Saransh Gupta

Sales Engineer, Adverb Technologies

Sahil completed his B.E. in Mechanical Engineering from YCCE, Nagpur. He did HIS Internship at AKGEC-KUKA wherein he completed his certification course on Industrial Robot Programming - Basic & Advance and joined Addverb Technologies where he is presently working as Robotics Engineer.

Mr. Saransh Gupta
Sahil Gaurkar

Robotics Engineer, Addverb Technologies Pvt. Ltd. Noida

Mitush did his B-Tech in Automation and Robotics from Gulzar Group of Institutes, Punjab. He completed Certification Course on Robot Programming- Basic from Industrial Robotics Training Center at AKGEC Campus, Ghaziabd. Presently working with EDAG India Pvt ltd for since last 1.5 Year.

Mr. Saransh Gupta
Mitush Kumar

Robotics Engineer, EDAG Production solutions Pvt Ltd.

Certification

The participants, on successful completion of above trainings, will receive joint certification by KUKA Robotics & AKGEC. To make the certifications and training standards at par with KUKA standards, the training contents and course material will be kept same as used by KUKA College internationally.

Still do you have any Query or Question?

Frequently Asked Questions

KUKA Certified Industrial Robotics courses are training programs designed to equip students with the skills needed to program, operate, and maintain KUKA robots. These courses are recognized and certified by KUKA, a leading manufacturer of industrial robots.

KUKA Certified courses typically cover:
  • Basic and Advanced Programming: Introduction to KUKA Robot Language (KRL) and advanced programming techniques.
  • Operation and Handling: Safe operation of KUKA robots, including startup, shutdown, and manual movement.
  • Maintenance and Troubleshooting: Routine maintenance, diagnostics, and problem-solving for KUKA robots.
  • Integration: Setting up and integrating robots with other systems, such as PLCs and HMIs.
  • Safety Protocols: Understanding and implementing safety standards and protocols for robotic systems.

These courses are ideal for:
  • Industrial Engineers: Professionals looking to specialize in robotic automation.
  • Technicians and Operators: Personnel responsible for operating and maintaining KUKA robots.
  • Students and Graduates: Individuals pursuing careers in robotics or advanced manufacturing.
  • Automation Professionals: Engineers involved in the design and integration of automated systems.

Prerequisites vary by course level:
  • Basic Courses: No specific prerequisites; however, a background in engineering, mathematics, or computer science is beneficial.
  • Advanced Courses: Completion of basic KUKA training or equivalent experience with industrial robots.

Yes, KUKA offers different levels of certification:
  • Basic Training: Introduction to KUKA robots, basic programming, and operation.
  • Advanced Training: In-depth programming, complex operations, and integration.
  • Specialized Courses: Focused on specific applications such as welding, palletizing, milling, 3D printing, or vision systems.

KUKA Certified courses can be taken at:
  • KUKA College: KUKA’s official training centers located worldwide.
  • Partner Institutions: Authorized training partners like AKGEC-KUKA Industrial Robotics Training Centre in Ghaziabad, Uttar Pradesh, India.

The duration varies:
  • Basic Courses: Typically 80 hours (2 weeks for students, 1 week for professionals).
  • Advanced Courses: Typically 80 hours (2 weeks for students, 1 week for professionals).
  • Specialized Courses: Varies depending on complexity, usually 1-2 weeks.

Upon successful completion, you receive a KUKA Certified Training Certificate, recognized in the industry to enhance your global employment prospects.

Career opportunities include roles such as Robotics Programmer, Robotics Technician, Automation Engineer, and Field Service Engineer.

To enroll:
  • Visit KUKA’s Official Website: Check the training section for available courses.
  • Contact KUKA College: Reach out to the nearest KUKA training center for schedules and enrollment procedures.
  • Partner Institutions: Enroll through authorized partners like AKGEC.

Helpful resources include:
  • KUKA Training Manuals: Comprehensive guides provided during training.
  • KUKA Simulation Software: Tools like KUKA.Sim for offline programming and simulation.
  • Online Tutorials and Forums: Additional learning materials and community support available online.
  • KUKA Support: Access to technical support from KUKA for guidance and troubleshooting.

Contact Us

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