Automation, Computer-Integrated Technologies and Robotics
The study encompasses the technical, software, mathematical, informational, and organizational support required for computer control systems across diverse fields of application. This analysis involves the use of advanced microprocessor and computing technologies, specialized application software, and cutting-edge information systems. By integrating these tools, the study addresses the complex needs of designing, implementing, and optimizing control systems to ensure efficient operation and adaptability in various industries and activities. The focus is not only on the theoretical foundations but also on the practical deployment and continuous improvement of these systems in real-world scenarios.
Software
You will gain proficiency in modern programming languages such as Java, JavaScript, and Python, which are widely used in the development of control systems. You will also explore the associated frameworks and software tools that enhance the functionality, scalability, and performance of these systems. Through hands-on projects and practical exercises, you’ll learn to design, implement, and optimize control systems, while understanding the key principles behind software architecture, data management, and system integration. This comprehensive learning experience will equip you with the skills needed to tackle real-world challenges in software development and control system design across various industries
Hardware
The study focuses on microprocessor equipment, sensors, actuators, the design and organization of data transmission networks, and the programming of microcontrollers. It explores the fundamental principles and advanced techniques involved in configuring and optimizing microprocessor systems, developing efficient data communication networks, and implementing customized microcontroller programs. This comprehensive approach provides a deep understanding of the hardware, software, and network components essential for building and maintaining robust control systems in various applications.
Information support
During the study you will dive deep into the architecture of multi-tiered control systems, including Manufacturing Execution Systems (MES) and Supervisory Control and Data Acquisition (SCADA) systems. It covers the design and implementation of these systems, exploring their various levels and components. Additionally, the courses examines methods for data analysis and processing, focusing on techniques for effectively managing and interpreting data within these control systems. This comprehensive approach provides insights into how data flows through different system layers, how it can be analyzed to optimize performance, and how various control systems interact to enhance operational efficiency.
Where are our graduates employed?
Which subjects are taught
- Programming – 1. Fundamentals of Programming
- Programming – 2. Object-oriented Programming
- Software Development Technologies
- Information Systems – 1. Databases
- Information Systems – 2. Web-development
- Computer Graphics
- Fundamentals of Digital circuitry
- Technical Means of Automation
- Automatic Control Theory
- Computer Simulation of Processes and Systems
- Human-Machine Systems
- Artificial Intelligent TEchnologies
- Optimal Systems Control
- Mechatronics and Robotic Devices
- Fundamentals of Engineering and Sustainable Development Technologies
- Decision Support in Control Systems
- Adaptive and intelligent Control Systems
- Tools for Information Systems Design
- Expert Methods in Automated Systems
- Automation Systems Integration
- Industrial controllers
- Management of startup projects