Circuits Theory

Years: 
II
Semesters: 
III
IV
Credits: 
11.50

Manufacturers of electronics to achieve a high compatibility status at the market have to renew their production family regularly updating its performance and functionality. The design stage time frames for products development, for example such as mobile phones, computers, medical equipment, chips, and other electronic devices which are used as utilities can be dramatically reduced using computer aided design tools.

Computational mathematics

Years: 
II
Semesters: 
III
IV
Credits: 
7.50

This course introduces numerical techniques which are fundamental to a large class of computational problems in electronics. This discipline is designed to help students understand peculiarities, limitations and adaptation of numerical techniques for electronics problems. Students will gain experience of: selection of appropriate numerical method for given task guaranteeing proper requirements for its application to ensure convergence and stability; estimation of computation uncertainties; elaboration of algorithms for selected methods and software implementation; adaptation of complex software for given task.

Methods of Mathematical Physics

Years: 
II
Semesters: 
IV
Credits: 
4.50

The course "Methods of Mathematical Physics" is part of Bachelor of Electronics program for "Physical and Biomedical Electronics" specialty and belongs to variable part of professionally oriented disciplines.

Electromagnetic Field Theory

Years: 
III
Semesters: 
V
Credits: 
5.50

A goal of a course is to acquaint students with fundamental lows of the field theory, which are based upon the system of electromagnetism’s equation, as well as creation of necessary base for the whole number of further lecture courses that is a part of the program of education bachelors of electronics.

The feature of the method of material’s exposition in this course is approach from general to particular, as opposed to other common physical courses, in which field theory is considered on the basis of generalization of particular experimental facts. Material is taking, based on the fact that all phenomena in the field theory can be described based upon the most general lows, called Maxwell’s equations in a current course. The selection feature of the material for this course is orientation upon education of the specialists in electronics.

Fundamentals of biomedical knowledge

Years: 
III
Semesters: 
V
Credits: 
5.50

"Fundamentals of biomedical knowledge " as a training course aims to familiarize the future electronic engineers that acquire Physical and Biomedical Electronics specialty with the basic principles of structural and functional organization and patterns of general biological manifestations of the life of a living organism (human and animal) for molecular biological and cellular levels of neurohumoral regulation and integration of all systems, organs and their formation in phylo-and ontogenesis.

Theory of Signals

Years: 
III
Semesters: 
V
Credits: 
5.00

The course is devoted to fundamentals of theory and applications of continuous and digital signal processing. The aim of the discipline is to give students understanding of application of signal processing methods in physical and biomedical electronics and strong background in using signal analysis, especially biomedical signals. The classification and parameters of signals, linear stationary digital systems are considered. The focus of the discipline is given to processing and analysis of discrete signals in linear stationary systems.

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