Professional Automation Courses
Comprehensive training programs designed to advance your automation engineering career with hands-on experience and industry certification.
Back to HomeOur Training Methodology
Our comprehensive approach combines theoretical foundation with practical application, ensuring students develop both conceptual understanding and hands-on expertise in industrial automation systems.
Theoretical Foundation
Comprehensive coverage of automation principles, control theory, and industry standards. Students master fundamental concepts before advancing to practical applications.
Hands-On Practice
Extensive laboratory sessions using real industrial equipment. Students program actual PLCs, configure HMIs, and build complete automation solutions.
Real-World Projects
Capstone projects simulate actual industrial scenarios. Students design, implement, and commission automation systems from requirements through deployment.
Progressive Learning Approach
Our curriculum follows a structured progression from fundamental automation concepts to advanced enterprise integration. Each course builds upon previous knowledge while introducing new technologies and methodologies. Students begin with core PLC programming and control system principles before advancing to specialized areas like robotics integration and enterprise architecture.
Assessment methods include theoretical examinations, practical laboratory evaluations, and comprehensive project work. This multi-faceted approach ensures students demonstrate mastery across all learning objectives before advancing to the next level. Continuous feedback and individualized instruction support diverse learning styles and professional backgrounds.
Course Programs
Choose the program that matches your career goals and technical background
Industrial Automation & Control Systems Fundamentals
This foundational course introduces automation engineering principles including PLC programming, HMI design, and control system architecture. Students learn ladder logic, function block programming, and structured text for various industrial controllers.
Course Modules:
- PLC Programming Languages & Logic Development
- HMI Design & Operator Interface Development
- Sensor Integration & Actuator Control
- Industrial Communication Networks
- Safety Systems & Emergency Procedures
- System Documentation & Troubleshooting
Learning Outcomes:
Graduates will program and configure PLCs from major manufacturers, design effective HMI interfaces, implement safety systems meeting industry standards, and troubleshoot automation equipment. Hands-on experience with simulation software and real PLCs ensures practical competency.
Robotic Process Automation & AI Integration
This advanced program focuses on next-generation automation including robotics, machine vision, and artificial intelligence integration. Students master RPA tools like UiPath and Blue Prism for business process automation across enterprise systems.
Course Modules:
- RPA Platform Development & Deployment
- Collaborative Robotics Programming
- Machine Vision System Implementation
- Python for Automation Scripting
- API Integration & Custom Solutions
- Industrial IoT & Edge Computing
Learning Outcomes:
Students develop expertise in RPA tool configuration, collaborative robot programming, and machine learning implementation for predictive maintenance. Advanced topics include autonomous mobile robots and real-time control systems using edge computing platforms.
Enterprise Automation Architecture & Digital Transformation
This strategic course develops automation architects capable of designing enterprise-wide automation strategies and digital factories. Students learn Industry 4.0 concepts, cyber-physical systems, and building smart manufacturing ecosystems.
Course Modules:
- Industry 4.0 & Cyber-Physical Systems
- MES Integration & ERP Connectivity
- Digital Twin Development & Optimization
- Automation Project Management
- Cloud-Based Automation Platforms
- Organizational Change Management
Learning Outcomes:
Graduates master enterprise automation strategy development, ROI calculation for automation investments, and digital transformation project leadership. Advanced competencies include distributed control architectures and sustainable automation practices.
Course Comparison Matrix
Compare features and choose the program that fits your career objectives
| Features | Fundamentals | RPA & AI | Enterprise |
|---|---|---|---|
| Course Duration | 8-12 weeks | 12-16 weeks | 16-20 weeks |
| Prerequisites | Basic electrical knowledge | Fundamentals completion | RPA & AI completion |
| PLC Programming | |||
| HMI Development | |||
| Robotics Integration | - | ||
| AI & Machine Learning | - | ||
| Enterprise Integration | - | Basic | |
| Digital Twin Technology | - | - | |
| Project Management | Basic | Intermediate | Advanced |
| Investment | €899 | €1,799 | €2,899 |
Course Selection Guidance
Choose Fundamentals if:
- • New to automation engineering
- • Need PLC programming foundation
- • Focus on traditional manufacturing
- • Seeking entry-level opportunities
Choose RPA & AI if:
- • Have basic automation knowledge
- • Interest in modern robotics
- • Work in process optimization
- • Pursuing advanced specialization
Choose Enterprise if:
- • Experienced automation professional
- • Leadership or architect role goals
- • Enterprise system integration focus
- • Digital transformation projects
Technical Standards & Equipment
Industry-standard tools and protocols across all training programs
Equipment & Software
PLC Platforms
Siemens SIMATIC S7-1500, Allen-Bradley ControlLogix, Schneider Modicon M580
Programming Software
TIA Portal, Studio 5000, Unity Pro, WinCC, Factory Talk View
Robotics Platforms
Universal Robots, KUKA, ABB collaborative robots, UiPath, Blue Prism
Industrial Networks
Ethernet/IP, Profibus, Profinet, Modbus TCP/RTU, OPC-UA
Industry Standards
Safety Standards
IEC 61508, IEC 61511, ISO 13849, NFPA 79 electrical safety
Programming Standards
IEC 61131-3 programming languages, ISA-88 batch control
Integration Standards
ISA-95 enterprise integration, OPC-UA information modeling
Quality Standards
ISO 9001 quality management, IEC 62061 machinery safety
Laboratory Facilities
Our 500m² training laboratory features dedicated workstations equipped with current-generation industrial automation equipment. Each student has access to individual PLC training stations, HMI development workstations, and shared industrial networking infrastructure. Advanced labs include collaborative robot cells, machine vision stations, and enterprise integration testbeds.
Ready to Advance Your Automation Career?
Choose your course level and start building expertise that industries demand. Professional certification and hands-on experience await.