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 (Communications and information technologies).
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.
In the first year of study, student chooses three courses from the first year of their chosen domain (Communications and information technologies).
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 (3 out of 11)
The name of the course: Modelling and Design of Microwave Devices and Systems
Code: 3DЕТ1I01
Number of classes per week:
Code: 3DЕТ1I01
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Field theory. Numerical methods in applied electromagnetics. Guided electromagnetic waves. Application of circuits theory methods in the RF and microwave frequency range. Modeling of electromagnetic fields. Analysis and optimization of microwave circuits. Modeling and design of devices and systems in various areas of telecommunications.
Specification for the book of courses
Specification for the book of courses
The name of the course: Advanced Error Control Coding Techniques
Code: 3DЕТ1I02
Number of classes per week:
Code: 3DЕТ1I02
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Error correction codes in modern communication systems and storage systems. Trellis-based decoders. Viterbi algorithm. SOVA algorithm. BCJR algorithm. Iterative decoding of codes on graphs (LDPC codes). Bit-flipping algorithm. Message passing algorithm and turbo principle. Sum-product algorithm. Min-sum algorithm. Gallager A and B algorithms.
Specification for the book of courses
Specification for the book of courses
The name of the course: Microwave Electronics
Code: 3DЕТ1I03
Number of classes per week:
Code: 3DЕТ1I03
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Modern CAD techniques - modeling, simulation and optimization of microwave circuits. Microwave semiconductor devices: microwave diodes and transistors. Applications of microwave semiconductor devices. RF and microwave amplifiers. Small signal amplifiers and nonlinear amplifiers. Low-noise amplifiers. Broadband amplifiers. Power amplifiers - basic features and applications. Classes of power amplifiers. Harmonic balance analysis. RF and microwave oscillators. Mixers. Detectors. Modulators. Microwave control circuits (switches, phase shifters, limiters, attenuators). Microwave integrated circuits.
Specification for the book of courses
Specification for the book of courses
The name of the course: Wireless Communications
Code: 3DЕТ1I04
Number of classes per week:
Code: 3DЕТ1I04
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Overview of microwave wireless communication systems. Advanced wireless services. Propagation models in the RF and microwave frequency range. Selected topics in the field of fixed and mobile communication systems. Wireless communication systems architecture and design of RF components and subsystems for wireless communications. Methods for the characterization of non-ionizing radiation levels of wireless systems and the biological effects of radiation.
Specification for the book of courses
Specification for the book of courses
The name of the course: CDMA and OFDM Communications
Code: 3DЕТ1I05
Number of classes per week:
Code: 3DЕТ1I05
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:CDMA Transmission ChannelModels. Representation of CDMA signals. The discrete channel model for synchronous transmission in a frequency-flat channel. The discrete channel model for asynchronous wideband CDMA transmission. Receiver Structures for Synchronous Transmission The single-user matched filter receiver. Optimal receiver structures . Receiver Structures for MC-CDMA and Asynchronous Wideband CDMA. The RAKE receiver . Examples for CDMA Systems: Wireless LANs according to IEEE 802.11 , Global Positioning System, Overview of mobile communication systems , Wideband CDMA, Time Division CDMA, cdmaOne ,cdma2000. Implementation and Signal Processing Aspects for OFDM. Synchronization and Channel Estimation Aspects for OFDM Systems. Interleaving and Channel Diversity for OFDM SystemsModulation and Channel Coding for OFDM Systems.OFDM System Examples.
Specification for the book of courses
Specification for the book of courses
The name of the course: Telecommunications Theory
Code: 3DЕТ1I06
Number of classes per week:
Code: 3DЕТ1I06
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Statistical characterization of channels in modern radio-frequency and optical wireless systems. Error probability and capacity evaluation using analytical and simulation approach. Controlled intersymbol interference. Optimal detection in different channel conditions. Combined equalization and coding. Spatial-time codes. Performance assessment of multi-cell wireless systems. Study the information transmission through Visible Light Communications - VLC from the point of view of Theory of Telecommunications.
Specification for the book of courses
Specification for the book of courses
The name of the course: Digital Modulation Techniques
Code: 3DЕТ1I07
Number of classes per week:
Code: 3DЕТ1I07
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Minimum Shift Keying (MSK) and MSK modulation types. Modulation with the continuous phase. Phase Modulation. Spectrally efficient modulation without constant envelope. Performance of modulation techniques in fading channels, and equalization.
Specification for the book of courses
Specification for the book of courses
The name of the course: Digital Telecommunications
Code: 3DЕТ1I08
Number of classes per week:
Code: 3DЕТ1I08
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Adaptive scalar quantization. Adaptive Pulse-code modulation. Adaptive differential Pulse-code modulation. Adaptive Delta modulation. Coding with delayed decision making. Subband coding. Channel capacity and coding. Channel coding. Scalar and vector quantization. Transform coding. Audio and speech signal compression. Video signal compression.
Specification for the book of courses
Specification for the book of courses
The name of the course: Digital Signal Processing
Code: 3DЕТ1I09
Number of classes per week:
Code: 3DЕТ1I09
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Discrete signals and systems. Discrete direct and inverse Fourier transform. Algorithms of direct and inverse fast Fourier transform. Direct and inverse z-transform. Discrete transfer functions. Discrete transforms (DCT, DFT, DWT). Digital recursive and nonrecursive filters and their realisations. Wave digital filters and realisations. Frequency and time analysis. Appliance of digital filters in the construction of linear predictors, both fixed and adaptive. Estimation of discrete signal's parameters. Digital signal processing in frequency domain. Basics of digital signal processing needed for subsegment coding (filter banks). Digital signal processors for filter realisations. Software package for digital signal processing MATLAB.
Specification for the book of courses
Specification for the book of courses
The name of the course: Sound Generation and Perception
Code: 3DЕТ1I10
Number of classes per week:
Code: 3DЕТ1I10
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Generating speech and music signals, as well as measurement acoustical signals. Sound transmission indoors and outdoors. Sound perception. Sound acquisition (acoustical sensors). Design and analysis of modern devices for sound recording and reproduction. Acoustics of enclosed spaces. Sound reinforcement. Noise as unwanted sound and adequate protection. Creating sound effects with predefined characteristics. Standards and norms of acoustic quality. Acoustic measurement techniques. The application of technology based on sound in the industry.
Specification for the book of courses
Specification for the book of courses
The name of the course: Compressive Sensing with Applications
Code: 3DЕТ1I11
Number of classes per week:
Code: 3DЕТ1I11
Number of classes per week:
- Lectures: 3
- Exercises:0
ECTS: 10
Course outline:Modern approaches to data acquisition. Significance of compressive sensing of analog signals and a sparse representation of signals. Mathematical formulation of compressive sensing. Required conditions for sucessfull application of compressive sensing- RIP, SPARK and MIP. The problem of convex optimization in compressive sensing. Minimization of vector norms l0, l1 and l2. Deterministic approach in constructing the measurement matrice. Probabilistic approach in constructing the measurement matrice. Sparse representations of signals for the reconstruction of information from incomplete data. Sparse signal coding. Compressive sensing for a predefined dictionary. Greedy algorithms and algorithms with a relaxed condition of sparsity. Orthogonal matching pursuit algorithm. Matching pursuit algorithm. Weak matching pursuit algorithm. Analysis of the obtained approximations. Dictionary learning. Application of compressive sensing algorithms in A / D conversion of variety of signals, also in MRI algorithms and face recognition.
Specification for the book of courses
Specification for the book of courses
Obligatory
The name of the course: Scientific and Research Work 1
Code: 3DNIR1
Number of classes per week:
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
Specification for the book of courses
3. YEAR
Obligatory
The name of the course: Scientific and Research Work 3
Code: 3DNIR2
Number of classes per week:
Code: 3DNIR2
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
Specification for the book of courses
The name of the course: Doctoral Thesis
Code: 3DZR
Number of classes per week:
Code: 3DZR
Number of classes per week:
- Lectures: 0
- Exercises: 0
ECTS: 30
2. YEAR
Elective Block (3 out of 82)
Courses from the chosen domain (Communications and Information Technologies)
The name of the course: Audio Communications
Code: 3DЕТ3I01
Number of classes per week:
Code: 3DЕТ3I01
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Audio signals (definitions, concepts). Characteristics of speech and music signals. Audio communication systems (structure and characteristics). Input and output acoustical environment (sound sources and receivers, spatial environment). Audio devices. Audio analytics. Auditory scenes (analysis and synthesis). Detection and classification of audio events. Audio signal processing. Sound synthesis. Subjective effects of sound. Spatial sound image and 3D sound. Auditory virtual environments. Audio restoration. Perceptual coding and audio compression. Sound sources separation and speech dereverberation. Analysis and processing of speech. Audio signal quality (speech quality - intelligibility). Audiometry and audiology. Hearing aids. Applications of sound based technology in medicine.
Specification for the book of courses
Specification for the book of courses
The name of the course: Antennas and Propagation
Code: 3DЕТ3I02
Number of classes per week:
Code: 3DЕТ3I02
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Analysis of antennas and antenna arrays (analytical and numerical methods). Synthesis of antennas and antenna arrays. Software tools for analysis and synthesis of antenna, antenna arrays and antenna systems. The design procedures for different classes of antennas that have practical applications in modern wireless communication systems. Adaptive antenna structure. Advanced techniques in DOA estimation. Electromagnetic wave propagation modeling. Electromagnetic field prediction in different local-specific regions for different services. Neural models for electromagnetic field prediction. Numerical, empirical, neural and hybrid methods in electromagnetic wave propagation modeling. Implementation of local-specific neural and hybrid empirical-neural (HEN) models with increased efficiency of prediction .
Specification for the book of courses
Specification for the book of courses
The name of the course: Applications of Neural Networks in Telecommunications
Code: 3DЕТ3I03
Number of classes per week:
Code: 3DЕТ3I03
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Градиво:Neuron and biological nervous system. Artificial neural networks (ANNs). Types of ANNs. Multilayer neural networks. Recurrent neural networks. Training and testing of ANNs. Models based on neural networks. Black-box neural models. Knowledge-based neural models. Hybrid empirical-neural models. Analysis of various examples of ANN applications in the field of telecommunications. Software packages to be used for work with ANNs. Implementing neural models in specialized CAD software packages for use in telecommunications.
Specification for the book of courses
Specification for the book of courses
The name of the course: Satellite Communication Systems
Code: 3DЕТ3I04
Number of classes per week:
Code: 3DЕТ3I04
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Configuration of a satellite communications system. Classification of satellites. Satellite orbits. Satellite hardware - satellite subsystems. Satellite link design. Modulation techniques in satellite communication systems. Multiple access techniques (FDMA, TDMA, CDMA). Earth stations. Communication satellites. Satellite telephony. Satellite television. Satellite data communication services. VSAT systems. Satellite navigation systems. GPS, GLONASS, GALILEO. Integration of GPS and geographic information systems. Remote Sensing Satellites. Weather Satellites. Military satellites.
Specification for the book of courses
Specification for the book of courses
The name of the course: RF and Microwave Amplifiers
Code: 3DЕТ3I05
Number of classes per week:
Code: 3DЕТ3I05
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Models of microwave transistors (MOSFET, MESFET, HEMT, BJT, HBT)-models for small signals, nonlinear models, noise modeling. Procedure of low-noise amplifier design. Power amplifiers in class-A, AB, B, C. High-efficient power amplifiers (Class-F, inverse F, D, E, J. ..). Linearization techniques. Techniques for increasing efficiency of microwave amplifiers.
Specification for the book of courses
Specification for the book of courses
The name of the course: Electromagnetic Compatibility and Signal Integrity
Code: 3DЕТ3I06
Number of classes per week:
Code: 3DЕТ3I06
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:General EMC concepts and techniques. Sources of electromagnetic interference (EMI). EMI signal representation and characterization. The interference coupling mechanisms. Interference control techniques. Coupling of electromagnetic fields with multiconductor lines. Numerical simulation techniques (TLM, FDTD, FEM, MoM). Numerical simulation of the coupling between the integrated electronic systems. Principles of designing compact multifunctional integrated circuits (System in a Package - SiP and System on Chip - SoC). Multilayer printed circuit boards (PCBs) and multilayer printed wire boards (PWBs). Clock and power distribution.
Specification for the book of courses
Specification for the book of courses
The name of the course: Detection of Signals in Noise
Code: 3DЕТ3I07
Number of classes per week:
Code: 3DЕТ3I07
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Linear systems. The noise factor. Optimal linear systems. Nonlinear Systems -direct method. Nonlinear systems - transformation method. Statistical signal detection. Optimal signal reception in the noise. Detection of a known and an unknown signal in white and colored Gaussian noise. Maximization of signal-to-noise ratio and custom filters.Optimum filter for colored noise. The A Posteriori Theory of Reception. Statistical theory of detection. Detection based on a single sample. Detection based on multiple samples. Estimation of signal parameters.
Specification for the book of courses
Specification for the book of courses
The name of the course: Communication Algorithms and Applications
Code: 3DЕТ3I08
Number of classes per week:
Code: 3DЕТ3I08
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Линеарна предикција и Винеров филтар. Адаптивни трансверзални филтар. LMS, RLS алгоритам и њихове варијације. Адаптивни алгоритам за еквализацију канала. DFB еквилајзер и њeгове варијације. Алгоритми за синхронизацију. Основни алгоритми за синхронизацију учестаности, алгоритми за временску синхронизацију и алгоритми за синхронизацију РN секвенце. Имплементација комуникационих алгоритама. Специфична примена комуникационих алгоритама на бази софтвера у одговарајућим DSP процесорима и на бази хардвера тј. FPGA i ASIC кола.
Specification for the book of courses
Specification for the book of courses
The name of the course: 5G and 6G Mobile Communications
Code: 3DЕТ3I09
Number of classes per week:
Code: 3DЕТ3I09
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Modern mobile networks and development perspectives. General concept of the next generation networks. Adaptive network layer. Mobility management. Multi-hop cellular networks. Cognitive networks. Access point choice. Network optimization theory. Multi-operator spectrum sharing. Mobile networks and cloud computing.
Specification for the book of courses
Specification for the book of courses
The name of the course: Information Theory and Source Coding
Code: 3DЕТ3I10
Number of classes per week:
Code: 3DЕТ3I10
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Shannon entropy and differential entropy. Other measures for the amount of information and entropy. Markov's chain and hidden Markov models. Rate distortion heory. Source coding with fixed length of code words. Source coding with variable length of code words. Adaptive source coding based on robust quantizers. Coding algorithm based on lifting wavelet transform. Adaptive modulation and coding.
Specification for the book of courses
Specification for the book of courses
The name of the course: Statistical Signal Processing
Code: 3DЕТ3I11
Number of classes per week:
Code: 3DЕТ3I11
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Stochastic signals. Systems for adaptive signal processing of stochastic signals. Adaptation algorithms. System identification. Prediction. Adaptive interference suppression. Optimal receivers for systems with intersymbol interference. Equalization methods: linear equalization, feedback equalization, iterative equalization. Adaptive linear equalization. Adaptive feedback equalization. Application of Viterbi algorithm to equalization. Iterative decoding. BCJR (Bahl-Cocke-Jelinek-Raviv) algorithm. Monte Carlo simulations and importance sampling method. Software implementations in MATLAB.
Specification for the book of courses
Specification for the book of courses
The name of the course: Digital Communications Over Fading Channel
Code: 3DЕТ3I12
Number of classes per week:
Code: 3DЕТ3I12
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Fading Channel Characterization and Modeling. Multipath fading. Log-normal shadowing. Frequency selective and nonselective fading. Flat fading channel modelling. Coherent detection Optimum receivers for fading channels. Diversity techniques for communication over fading channels (EGC, MRC, SC, GSC, T-GSC). MIMO systems. Optimum combining.
Specification for the book of courses
Specification for the book of courses
The name of the course: Coherent Optical Telecommunication Systems
Code: 3DЕТ3I13
Number of classes per week:
Code: 3DЕТ3I13
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Coherent detection in optical communications. Differences between IM/DD and coherent systems. Modulation formats. Generation of RZ-DPSK signals. Homodyne and heterodyne detection. Balanced detection. Quadrature receivers. Synchronous and asynchronous demodulation. Interferometric detection. Phase noise. Phase and polarization diversity. Polarization modulation. Multiplexing of optical signals. TDM, FDM, WDM, SCM, CDMA. Polarization multiplexing. Cross-phase modulation. Spectral efficiency of IM/DD and coherent channels. Quantum capacity limits.
Specification for the book of courses
Specification for the book of courses
The name of the course: Theory and Applications of Software Radio
Code: 3DЕТ3I14
Number of classes per week:
Code: 3DЕТ3I14
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:The evolution of radio technology. Transmitter and receiver architecture. Antennas and RF front end. Multirate signal processing. Direct Digital Synthesis (DDS). Analog to digital and digital to analog conversion. Introduction to smart antennas and baseband signal processing. Antenna arrays and beamforming. Digital hardware choices. Software methods for software radio. Cognitive networking.
Specification for the book of courses
Specification for the book of courses
The name of the course: Advanced Modeling Techniques for RF Applications
Code: 3DЕТ3I15
Number of classes per week:
Code: 3DЕТ3I15
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Theoretical aspects of a modeling process as an integral part of the design process. Review of themost frequently used modeling techniques for RF applications. Introduction to the selected modeling techniques. Modeling components and devices for applications in RF and microwave communications. Modeling the propagation of mobile communication systems. Application of artificial neural networks for modeling RF and microwave communications. Model development in a selected field.
Specification for the book of courses
Specification for the book of courses
The name of the course: Free-space Optical Telecommunications
Code: 3DЕТ3I16
Number of classes per week:
Code: 3DЕТ3I16
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Basics of free-space optical telecommunication technologies. Integration of FSO in optical networks. Long range communications, satellite optical communications. Optical wireless technologies in closed spaces. Coherent and incoherent detection. Characteristics, modulation techniques and propagation efects. Optical components for FSO. Signal processing in optical an electrical domain. Diversity reception with different combining strategies.
Specification for the book of courses
Specification for the book of courses
The name of the course: Advanced Signal and Data Processing
Code: 3DЕТ3I17
Number of classes per week:
Code: 3DЕТ3I17
Number of classes per week:
- Lectures: 3
- Exercises: 0
ECTS: 10
Course outline:Estimation of signal parameters. Adaptive signal processing. Kalman and adaptive filtering. Compression of signals and data based on advanced techniques and algorithms. Compressive sensing. Introduction to statistical learning. Adaptive methods of statistical learning and data processing. Soft calculation methods. Classification and clustering techniques.
Specification for the book of courses
Specification for the book of courses
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
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
Metrology and measurement technique offers 4 elective courses in the second year of doctoral academic studies:
- Measurement and Acquisition Systems
- Industrial Measurement and Information Systems
- Measurement and Information Technologies
- Medical and Bioelectronic Measurement Technique
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
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 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
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
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
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
Obligatory
The name of the course: Scientific and Research Work 2
Code: 3DNIR2
Number of classes per week:
Code: 3DNIR2
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
Specification for the book of courses
Doctor of Science in electrical engineering and computing
0
ECTS
0
Years