Laboratories and Equipment

The department is well-equipped with a strong material and technical foundation, particularly the following

  • Laboratory of computer technologies (311)
  • Laboratory of pneumatic automation (301)
  • Laboratory of technological measurements and process control (307)
  • Laboratory of microprocessor technologies (308)
  • Laboratory of measurements and modelling (302-А)
  • Centre for the development of strategies for managing technological processes “Honeywell-Ukraine” (302-А)
  • Ukrainian-Norwegian distance learning center (510)
  • Computer Rooms (4, 436)
  • Media lecture halls (528, 530)

307 – Laboratory of technological measurements and process control

The laboratory is equipped with advanced technical means used in actual production environments to monitor and measure key technological parameters such as temperature, pressure, level, substance concentration, gas analysis, and flow.

Students engage with both primary measurement transducers and sensors, as well as explore the structure, operational principles, and application features of various signal converters. These include electro-pneumatic, pneumatic-electric, and normalizing types.

During the education it is emphasized the correct application of these signal converters within control and regulation systems, integrating them effectively with primary measurement transducers and regulators.

Additionally, the laboratory places a strong focus on understanding the fundamental principles and laws of regulating technological parameters. This includes hands-on experience with modern industrial regulators and an in-depth examination of their core characteristics and functions.

308 – Laboratory of Microprocessor Technologies

This laboratory is designed for the exploration and study of automation technologies, with a particular focus on microprocessor-based systems used to build automated control systems for technological processes in computer-integrated manufacturing environments.

The laboratory features a range of setups for examining traditional local automation components, including various signal converters and actuator mechanisms.

Additionally, the facility is equipped with dedicated stations for studying different types of industrial controllers, such as:

  • Integrated multi-channel PLCs with proprietary software,
  • PC-based controllers,
  • Low-channel systems for developing distributed control systems with human-machine interfaces,
  • Industrial controllers with standardized software adhering to IEC 61131-3,
  • Technologies for establishing industrial computer networks.

These resources provide students and researchers with hands-on experience and in-depth understanding of modern automation systems and their applications.

Media Lecture Halls (530, 528)

The department features spacious lecturing classrooms designed for multimedia-enhanced instruction. These rooms enable shared access, allowing students to engage actively in real-time problem-solving. They serve as venues for lectures, practical sessions, international conferences, and the defense of theses and dissertations.

These rooms are utilized for teaching courses in programming, numerical methods, optimization, information systems, etc.

Ukrainian-Norwegian Distance Learning Center

The department has established a Ukrainian-Norwegian Distance Learning Center, designed to enhance educational collaboration on an international scale. This state-of-the-art facility is outfitted with dedicated workstations and advanced video conferencing equipment, enabling seamless communication and interaction. The center provides a platform for conducting interactive lectures, seminars, and personalized sessions, connecting students with educators and experts from universities across Europe and the USA. Through this initiative, the department fosters global academic partnerships, offering students a unique opportunity to engage with diverse perspectives and gain insights from leading professionals worldwide.

Access to the informational and educational resources of European universities, combined with the participation of international educators, provides students with the opportunity to acquire valuable experience and insights from the global academic community. This exposure not only enhances their learning but also broadens their perspectives by engaging with diverse academic practices and expertise from around the world.

Equipment for Computer Vision and Robotics

Purchased with the support of the European Commission through the MASTERLY research project (Nimble Artificial Intelligence driven robotic solutions for efficient and self-determined handling and assembly operations. Grant agreement ID: 101091800)

Intel RealSense Depth Camera D455

A powerful stereo camera designed for diverse applications including machine vision, robotics, virtual reality, and more, capable of tasks such as face recognition, distance measurement, motion tracking, and 3D scanning.

  • The D455 is particularly suited for applications requiring precise short-range depth sensing, such as in virtual reality, robotics, and similar fields.

For more details, visit Intel RealSense official website

Intel RealSense D405

The D405 is a short-range stereo camera designed to deliver submillimeter accuracy for close-range computer vision tasks. It operates within a range of 7 cm to 50 cm, capable of detecting objects as small as less than 1 mm at the minimum distance of 7 cm.

  • This camera is ideal for applications such as defect analysis, remote measurement of wound sizes, and precision problem-solving in capturing and locating objects. Its high accuracy makes it a valuable tool for tasks requiring detailed inspection and measurement in a variety of industries.

For more details visit Intel RealSense official website

Intel RealSense L515

The L515 is a compact yet powerful laser depth camera engineered for a wide range of applications, including computer vision, robotics, virtual reality, and beyond. Its lightweight design ensures ease of use and integration across various platforms.

  • The L515 excels in long-range depth measurements, making it particularly suitable for tasks such as surveillance, indoor scanning, and outdoor applications. Its advanced capabilities allow it to capture detailed depth information over extended distances, enhancing its utility in diverse environments and applications.

For more details, visit Intel RealSense official website

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