Metrology and measurement technique

Teaching is performed during the first two years of study, while the third year is entirely for the work on doctoral thesis.

In the first year of study, student chooses three courses from the first year of their chosen domain (Metrology and Measurement Technique).

In the second year, student chooses three courses from the group of all elective courses at second year of doctoral academic studies, regardless of the elective domain the course belongs to.

1. year

Elective Block (1 out of 5)

The name of the course: Metrology of Electrical Quantities
Code: 3DEM1I01
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

Measurement and metrology. Development of measurement units system. Physical constants. National and international metrological institutions. Measurement and measuring methods. Analysis of sources for errors and interferences in measurement. Metrological characteristics of measuring resources. Calibration and comparison of measurement standards - traceability. Methods for processing of measurement results and determination of measurement uncertainty. Using of computer components in metrology for gathering, processing and communication of measurement and information data.

Specification for the book of courses

Metrology of Electrical Quantities

The name of the course: Sensors and Measurement Transducers
Code: 3DEM1I02
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

Basic block diagram of transducers. Basic definitions. Sensor as the basic element of the transducers. Information-energy parameters of transducers. Trends in the development of sensors and transducers. Active and passive transducers. Analog and digital transducers. Integrated, intelligent sensors and measurement modules. Transducers of temperature, force, pressure, flow, level, displacement, humidity. Analog electronic circuits for sensor connections.

Specification for the book of courses

Sensors and Measurement Transducers

The name of the course: Systems for Measurement and Control
Code: 3DEM1I03
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

Information theory of measuring signals. Measurement errors. Measurement and control systems. Metrological system. Analog and digital signal processing systems. Design of automated measurement and control systems. System engineering. Management and evaluation of the system. Intelligent and virtual instrumentation. Embeded systems and systems for diagnostics. Reliability.

Specification for the book of courses

Systems for Measurement and Control

The name of the course: Virtual Instrumentation
Code: 3DEM1I04
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

Contemporary model of measuring instrument. Standard architectures of computer measuring instrumentation. Software as measuring instrument. Graphical user interfaces. Organization of software tool LabVIEW. Programming structure and functions of virtual instrument. Development of virtual instrument for gathering of measuring and information data and statistical processing of measurement results. Control of programmable instrumentation. Examples for practical applications of virtual instrumentation in measuring systems for real-time work.

Specification for the book of courses

Virtual Instrumentation

The name of the course: Process Measurement Technique
Code: 3DEM1I05
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

Basic principles of measurement systems and measurement techniques in the process industry. Measurement transducers and systems. Mechatronic systems. Measurement of dimensions, linear and angular position. Measurement of force and moment. Measurement of number of rotations and angular speed. Measurement of vibration and impacts. Temperature measurement and thermovision. Measurement of pressure, differential pressure and vacuum. Flow measurement. Level measurement. Measurement of humidity. Measurement-informational systems. Programmable industrial automation systems. The basic principles of the application of the Internet of Things technology in monitoring industrial processes and technical systems.

Specification for the book of courses

Process Measurement Technique

Obligatory

The name of the course: Scientific and Research Work 1
Code: 3DNIR1
Number of classes per week:

Study and research work: 11

ECTS: 30

Course outline:

Formed individually in accordance with the needs of the scientific or seminar work, its complexity and structure. Lecturer assigns the specific task to a student. Student studies professional and scientific papers dealing with similar topics, makes research in order to find solutions for the assigned task, or to carry out certain experiments in the laboratory. The work also includes computer simulations, statistical analyzes,and participation in writing research papers in the specific scientific field.

Specification for the book of courses

Scientific and Research Work 1

3. year

Obligatory

The name of the course: Scientific and Research Work 3
Code: 3DNIR2
Number of classes per week:

Study and research work: 11

ECTS: 30

Course outline:

Scientific and Research Work 3

The name of the course: Doctoral Thesis
Code: 3DZR
Number of classes per week:

Lectures: 0
Exercises: 0

ECTS: 30

Doctoral Thesis

2. year

Elective Block (3 out of 82)

Courses from the chosen domain (Metrology and Measurement Technique)

The name of the course: Measurement and Acquisition Systems
Code: 3DEM3I01
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

Physical and mathematical models of measurement process. Conversion methods of processed signals (ADC and DAC). Signal conditioning (linearization, amplification, filtering, etc.). Acquisition of measurement data (multiplexing, S & H circuits, converters). Universal Acquisition Card. Standard interfaces and communication protocols in acquisition modules. Automatic test systems based on DAQ with applications.

Specification for the book of courses

Measurement and Acquisition Systems

The name of the course: Industrial Measurement and Information Systems
Code: 3DEM3I02
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

Basic block diagram of measurement-information system. Definitions. Signal Processing and Signal Transmission. Wired and wireless telemetry. Standards. Design of analog electronic circuits for sensors connection. Methods and systems for improving the signal-to-noise ratio. Computer-based systems and standard communication interfaces. Distributed measurement systems and Internet connectivity. Virtual instrumentation and virtual laboratories.

Specification for the book of courses

Industrial Measurement and Information Systems

The name of the course: Measurement and Information Technologies
Code: 3DEM3I03
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

General models of the measurement process. Sources of measurement data and metrological parameters of measurement signals. Microelectronic circuits for the processing of measurement signals. Components for analog-digital conversion of measurement signals (multiplexers, semplers, ADC, DACs) and indicators. Architecture and hierarchical organization of software for measurement systems. Universal acquisition cards. Measurement-information electronic modules (DAQ, DAS). Standard interfaces. Intelligent and virtual measurement instruments. Principles of calibration of measurement modules and systems.

Specification for the book of courses

Measurement and Information Technologies

The name of the course: Medical and Bioelectronic Measurement Technique
Code: 3DEM3I04
Number of classes per week:

Lectures: 3
Exercises: 0

ECTS: 10

Course outline:

Introduction to biomedical measurement instrumentation. Sources of bioelectric potentials. Biopotential amplifiers and signal processing. Electrostimulation. ECG, EEG, EMG, ERG. Ultrasonic medical devices. Electrotherapy. Defibrillators. Pacemakers. Surgical instrumentation. Instruments for the making of medical images based on electromagnetic radiation and on the basis of nuclear magnetic resonance.

Specification for the book of courses

Medical and Bioelectronic Measurement Technique

Groups of courses from all other domains

Electrical power engineering offers 7 elective courses in the second year of doctoral academic studies:

Electrical Machines and Transformes - Selected Chapters
Electrical Machines and Power Converters for Renewable Energy Sources
Digital Control of Electrical Drives and Power Converters
Computation of Lightning Overvoltages
Power Cable Engineering
Power Quality in Distribution Networks
Active Distribution Networks and Microgrids

Electrical power engineering

Electronics offers 11 elective courses in the second year of doctoral academic studies:

Digital Processing of Audio Signal
Digital Circuits and Systems Design
Embedded Systems Design
System-on-Chip Design
DSP Architectures and Algorithms
Electronic Circuits Testing
Reconfigurable Systems Synthesis of Filters
RF Systems Architectures
Computer Vision
Ultrasonic Technique

Electronics

Nanotechnologies and microsystems offers 10 elective courses in the second year of doctoral academic studies:

Power Devices and Circuits
Microsensors
Reliability of Electronic Devices and Microsystems
Prognosis of the Material Properties
Advanced Electronic Ceramic Materials
Software Engineering in Microelectronics
Solar Systems, Technologies and Devices
Technology, Design and Characterization of Microsystems
Reliability Modeling of MOS Devices
Influence of Radiation on Microelectronic Devices

Nanotechnologies and microsystems

Applied mathematics offers 7 elective courses in the second year of doctoral academic studies:

Mathematical Methods of Optimization
Analysis of Numerical Algorithms
Spectral graph theory
Highly Efficient Iterative Methods
Simulation of Industrial Systems
Mathematical Models in Industry
Mathematical Foundations of Statistical Learning and Applications

Applied mathematics

Applied physics offers 5 elective courses in the second year of doctoral academic studies:

Devices of Vacuum and Gas Electronics
Medical Physics
Semiconductor Devices and Technologies
Sensors and Actuators
Technological Processes in Gasses and Vacuum

Applied physics

Computing science and informatics offers 12 elective courses in the second year of doctoral academic studies:

Design and Analysis of Parallel Algorithms
Advanced Topics in Fault Tolerant System Design
Bioinformatics
Medical Informatics
Applications of Spectral Techniques for Digital Devices Design
Advanced Topics in Mobile and Ubiquitous Computing
Advanced Topics in Computer Graphics
Advanced Topic in Intelligent Systems
Advanced Topics in Specialized Information Systems
Mathematical Fundament of the Game Theory
Advanced Topics in E-Learning Technologies
Web Mining and Information Retrieval

Computing science and informatics

Communications and information technologies offers 17 elective courses in the second year of doctoral academic studies:

Audio Communications
Antennas and Propagation
Applications of Neural Networks in Telecommunications
Satellite Communication Systems
RF and Microwave Amplifiers
Electromagnetic Compatibility and Signal Integrity
Detection of Signals in Noise
Communication Algorithms and Applications
5G and 6G Mobile Communications
Information Theory and Source Coding
Statistical Signal Processing
Digital Communications Over Fading Channel
Coherent Optical Telecommunication Systems
Theory and Applications of Software Radio
Advanced Modeling Techniques for RF Applications
Free-space Optical Telecommunications
Advanced Signal and Data Processing

Communications and information technologies

Theoretical electrical engineering offers 3 elective courses in the second year of doctoral academic studies:

Methods for Steady-state Electromagnetic Fields Calculation
Inverse problems in Electromagnetics
Bounday Element Method in Electromagnetics

Theoretical electrical engineering

Control systems offers 6 elective courses in the second year of doctoral academic studies:

Digital Control Techniques
Optimal Control
Variable Structure Systems
Distributed Computer Control
Predictive Control
Adaptive Control Systems

Control systems

Obligatory

The name of the course: Scientific and Research Work 2
Code: 3DNIR2
Number of classes per week:

Study and research work: 11

ECTS: 30

Course outline:

Scientific and Research Work 2

Doctor of Science in electrical engineering and computing

Acquired title

ECTS

Years

1. year

Elective Block (3 out of 8)

Obligatory

The name of the course: Scientific and Research Work 1
Code: 3DNIR1
Number of classes per week:

Study and research work: 11

ECTS: 30

Course outline:

Scientific and Research Work 1

3. year

Obligatory

The name of the course: Scientific and Research Work 3
Code: 3DNIR2
Number of classes per week:

Study and research work: 11

ECTS: 30

Course outline:

Scientific and Research Work 3

The name of the course: Doctoral Thesis
Code: 3DZR
Number of classes per week:

Lectures: 0
Exercises: 0

ECTS: 30

Doctoral Thesis

2. year

Elective Block (3 out of 82)

Courses from the chosen domain (Electrical Power Engineering)

Groups of courses from all other domains

Obligatory

The name of the course: Scientific and Research Work 2
Code: 3DNIR2
Number of classes per week:

Study and research work: 11

ECTS: 30

Course outline:

Scientific and Research Work 2