Specialty E6 “Applied Physics and Nanomaterials”

The educational program combines the most interesting from the modern
natural and IT field!

Program description

Traditionally, thorough training in natural disciplines is provided – the
emphasis is on the formation of practical skills and the performance of
laboratory work on new equipment, we polish competencies in modern courses
of theoretical physics, as in the leading universities of the world. We
teach modeling and form a problem-oriented approach to solving any life
situations, not only professional ones! At senior courses we teach radio
electronics, semiconductor physics, solid-state, vacuum and
optoelectronics, quantum electronics and microwave electronics,
information theory, computer simulations. A third of the curriculum is
devoted to courses that are useful for modern scientists and necessary to
start a career in the IT industry: project management and business
analysis in IT, programming and object-oriented programming in Java,
algorithms and data structures, databases, the basics of UNIX system
administration , Web programming, 3D computer graphics, mathematical
modeling in IT engineering, artificial intelligence and machine learning,
big data, robotics and programming on ARDUINO. Additionally, we offer
special courses on programming in Python, creating window interfaces in
Python, the basics of Java Script, the theory of metamaterials,
microcontrollers, photonics, digital signal processing, coding, the theory
of antennas and radars, the basics of nanoelectronics, processors, and
synergetics. During the first two courses, radio physicists study
according to the general program, and then they actually choose one of the
specializations (departments): theoretical and computer radio physics,
quantum radio physics and photonics, semiconductor electronics, microwave
physics, space radio physics, applied electrodynamics. For biophysicists,
the scope of theoretical physics and electronics courses has been reduced,
instead studying: biophysics, biochemistry, molecular biology, immunology,
bioinformatics, genetics, biotechnology, radiation biophysics, drug
development and testing, medical diagnostics and many other useful
courses. The bachelor’s program and planned learning outcomes are agreed
with the scientific academic community and leading Ukrainian and
international IT companies. Our graduates can work:

• researcher, researcher in foreign and domestic research (including
  medical) centers, to solve urgent problems of natural sciences, to
  create modern scientific, medical diagnostic and military equipment
  for domestic and world customers;
• in leading IT firms and companies in positions: software engineer,
  application software developer, web application developer, database
  programmer, game developer, data analyst;
• hold operational and managerial positions at enterprises of radio
  electronics, telecommunications, cellular and satellite communications
  networks, subscriber access networks and local networks of departments
  and enterprises, design and scientific organizations, mobile
  communication networks, radio and television transmitting centers,
  radio navigation and radar centers;
• founders of their own business and high-tech start-ups.

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Specialty G5 Electronics, electronic communications, Електроніка,
електронні комунікації, instrumentation and radiotechnique

The educational program combines the biomedical and IT industries.

Program description

Thorough training is provided in natural and technical disciplines – we
focus on the formation of practical skills for solving specialized applied
problems in the field of micro- and nanosystems technology, biomedical
electronics and information technology. We will teach modeling and form a
problem-oriented approach to solving any life situations, not only
professional ones! At senior courses we will teach radio electronics,
semiconductor physics, solid-state, vacuum and optoelectronics, quantum
electronics and microwave electronics, information theory, computer
simulations. To form students’ skills in handling and developing
biomedical devices and systems, such disciplines as biochemistry, human
anatomy and physiology, biomedical research, the basics of biophysics,
medical electronics, medical diagnostic devices and measuring transducers
in biology and medicine, laser and plasma in medicine of intellectual
systems in medicine, biosensorics. A third of the curriculum is devoted to
courses that are useful for modern scientists and necessary to start a
career in the IT industry: project management and business analysis in IT,
programming and object-oriented programming in Java, algorithms and data
structures, databases, the basics of UNIX system administration , Web
programming, 3D computer graphics, mathematical modeling in IT
engineering, artificial intelligence and machine learning, big data,
robotics and programming on ARDUINO. In addition, we offer special courses
on programming in Python, creating window interfaces in Python, the basics
of Java Script, the theory of metamaterials, microcontrollers, photonics,
digital signal processing, coding, the theory of antennas and radars, the
basics of nanoelectronics, processors, synergetics. The bachelor’s program
and planned learning outcomes are agreed with the scientific academic
community and leading Ukrainian and international IT companies. Our
graduates can work:

• researcher, researcher in foreign and domestic research and medical
  centers, to create modern biomedical equipment for domestic and world
  customers;
• in leading IT firms and companies in the positions of: software
  engineer, application software developer, web application developer,
  database programmer, game developer, data analyst;
• founders of their own business and high-tech start-ups.

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The program provides for the training of specialists in the development
and maintenance of modern cyber-physical systems and technologies for
various purposes. There is a program interfaculty and interdisciplinary,
which provides competitive advantages graduates in a fast-moving job
market.

Program description

A cyber-physical system is a controlled or tracked computer algorithms is
a mechanism that is closely related to the Internet and its users. AT In
cyber-physical systems, software deals with physical objects. Examples of
cyber-physical systems include smart power systems, unmanned automotive
systems, automated control systems, robotic systems, self-guided aircraft.
Cyber-physical systems are evolving and are being introduced in various
spheres of human activity: aerospace and military industry, automotive
industry, public infrastructure, energy, healthcare, transportation,
entertainment, household appliances, etc. The purpose of the program is to
train specialists in the development, creation and operation of such
systems. The graduate will be able to create and use modern information
systems and technology; evaluate the quality, reliability, fault tolerance
and survivability of such systems and technologies, apply models, methods
and tools for optimization and adoption decisions in the development and
use of information systems and technologies. Students get practical skills
for working with computer equipment, control and measuring instruments,
software and hardware complexes and tools, network equipment, specialized
software, modern programming languages, etc. In addition to the necessary
IT competencies, graduates will be able to study, analyze predicting
physical phenomena and processes, that is, they will combine IT skills
with research and development skills (Research & Development» (R&D)).
Also, students during the training will receive the necessary for work
with modern IT companies “soft skills”: teamwork skills, knowledge of
English, ability to independently acquire the necessary knowledge and
skills and professionally improve yourself.

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