INSTITUTE OF AUTOMATICS AND COMPUTER ENGINEERING

Computers, Computer Complexes, Systems and Networks

Department of Computers, Computer Systems and Networks (CCSN), Department of Information and Measuring (IM), Department of Electrical Physics (EP) turn out specialists of this speciality.

The graduates achieve a high level of knowledge in hardware and software design, maintaining computers and networks.

The graduates of CCSN Department posses fundamental background in mathematics, physics, electrical engineering and microelectronics. Students get experience in three basic knowledge areas: computer hardware, software and networks. They study fundamental disciplines which form basis for further profound study of hardware and microelectronics - discrete mathematics, Boolean algebra, graph theory, theory of finite state machines (FSM), rmation theory and basics of digital circuit engineering and microelectronics. Furthermore students become familiar with computer systems and supercomputers, computer aided design and engineering systems and languages (VHDL and Verilog). Programming courses include studying C++, Pascal, assembler language, object-oriented programming, operation systems (Windows, Mas OS X , Linux, Solaris), CASE technology, rmation security, artificial intelligence, expert systems and data mining. The graduates achieve a high level of knowledge in computer networks: basics, protocols (includes TCP/IP, SMTP, Telnet and other), Networks Architecture , Internet, Network Operation Systems and local Network Administration and Development.

The graduates of IM and EF Departments possess fundamental background not only in the fields of computer hardware and software, but in electrical engineering, microelectronics and rmation and measuring technics. Besides on IM Department emphasize is made on accuracy aspects of algorithms, methods, devices and systems being developed and utilized, on EF Department emphasize is made on methods and tools of digital signal processing of one-dimensional and multidimensional signals for there transmission by telecommunication channels, by Internet, for archiving and compression.. The graduates of these departments are successfully working both in the fields of computer measurements (digital signal processing, smart transmitters, virtual instruments, analog-to-digital and digital-to-analog converters) and almost in all other fields of where computerized devices are utilized (such as medicine, metrology, introscopy, chromatography).

Owing to deep knowledge based on modern computing equipment and high rmation technology, graduates can easily fill positions within the rmation technology industry and in various fields of human activities: in planning and research organizations, industrial computing centres, communication, queuing and finance systems.

Control and Informatics in Technical Systems

This specialty graduates are highly skilled experts in computer maintenance of processes in rmatization and control. The graduate background involves fundamental mathematics, theory and methods of industrial control, simulation of complicated systems, and modern rmation technologies. The graduate level meets requirements of the speciality Automatic Control and Computer Engineering in Technical Systems. Eight of ten department professors are full members of the .

The students master the fundamentals of up-to-date automatic control, PC-based industrial design, and software elaboration. The computers are introduced into the educational process in the first term and are being used and studied during all times of tutoring in the institute. The students become familiar with programming technique, computer networks, database operation, and control and graphic systems.

The students acquire practical skills as laboratory network and internet administrators, including access to databases through networks and the processing of e-mail.

The students master the newest software products. They are presented with the unique opportunity to study distributed data management systems such as widespread ORACLE, which is used for operating banks and large industrial entities. This system was granted by the firm-manufacturer.

Owing to deep knowledge and computer ideology, the graduates can solve problems in various fields of up-to-date activities: engineering, commerce, economics, and scientific research.

In the context of the specialty, the following two specializations are provided:

• Engineering Systems in Automation and Control

• Computer-Aided Design of Control Systems

Computer-Aided Design Systems

This specialty graduates are often involved in occupations which require them to design complicated soft and hardware systems, and both hardware and software accessories needed for the operation of these systems.

The students gain experience in practical operations with relevant CAD systems. Their programming skills involve computer graphic systems, which allow them to work not only in the design of CAD systems but also in commercial advertising.

The background of the graduates is formed on the basis of the following divisions of science:

• generals in mathematics (including special courses on discrete mathematics), physics, programming, operating skills in PCs, workstations, and networks;

• programming languages, large software systems and database design, computer-based simulation technique, local and wide-area networks, expert systems and artificial intelligence, open-type systems;

• computer-aided design including the design of all basic computer units, microprocessors, microcomputers, and PCs, psychological methods to find new engineering decisions;

• mathematical methods, hardware and software environments making it possible to introduce automation into computer and computer elements design and manufacturing;

• mathematical methods and skills allowing both digital circuit trouble-shooting and the design of circuits which are able to elaborate correct results even though the circuits contain failures, encode the rmation to be transmitted, and automatically correct errors in the case of unreliable link.

A distinguishing feature of a graduate is the well-rounded education he or she possesses. The specialists find positions in rmatics, computation systems and networks, and programming; in the future the graduates may focus on any of a multitude of particular specialties. These opportunities enable the graduates to come to feel at home everywhere: at specialized computer hardware and software enterprises, at the businesses employing computers for automation, computer networks design, banking, database support, and documentation.

Applied Mathematics and Informatics

The Applied Mathematics Department offers a student a Master of Science degree in i Software Engineering, Artificial Intelligence and Intelligent Systems, Information Systems.

The Department of Mathematical Modelling offers students a Master of Science degree in Mathematical Modeling or in Internet Technologies.

The Applied Mathematics Department is among the first ones that train rmatics and software specialists in . It began to train programming engineers more than 30 years before. And from 1985 the Department has been training the specialists in the artificial intelligence and the intelligent systems. Many of former students of the Department now are leading specialists in the software design and the intelligent systems. The Department is well known among the analogous Departments of the Russian Technical Universities. There are 8 professors and 30 assistants of professor among the Department teachers.

The Department of Mathematical Modelling is one of the best Russian education facilities for training students in applied mathematics. The students study methods for creating mathematical models of the phenomenon (it may be natural, economic, social phenomena, etc.). They investigate the properties of the models, develop algorithms and programs. With a fundamental mathematical background and high intellectual potential, the graduates have no problem in seeking positions in various branches of modern engineering, economics, science, business, banking, and rmation.

The Departments are equipped with modern computers and network environments. The students study Internet technologies, designing and maintaining complicated software products, ‘client-server’ systems. The students are also familiarized with the software for parallel computers and tools for the intelligent system design. The science work of the students carries out on the high level. The students have the opportunity to practice at the leading enterprises and science research centers of . Many of the Departments’ teachers are famous scientists who work actively in different areas of the rmatics and the applied mathematics.

Nondestructive Evaluation and Diagnostic Techniques

The Department of Electrical Engineering & Introscopy (EE&I) offers Nondestructive Evaluation (NDE) programs at the Bachelor of Science (4 year), Engineer (4 plus 1 1/2 year), Master of Science (4 plus 2 years) and PhD levels.

The graduates obtain a fundamental background in rmatics, mathematics, physics, electronics, microprocessors, and measurements. These skills enable students to seek positions within the rmation technology industry in state and commercial enterprises and also in firms engaged in modelling systems software, data acquisition and processing systems, sensor and introscopy, and diagnostic devices design. Particular emphasis is given to mathematical modelling and to the design of software for processing measurements and experimental data analysis in various branches of science and engineering, such as power and mechanical engineering, space and aviation, petrochemistry and ecology, and rail and automobile transport.

The students master the newest computer methods, such as the following:

• numerical methods for modeling and analyzing electromagnetic, thermal, acoustic, and biological fields;

• CAD of sensors, electronics for medicine, ecology, and industrial diagnostic;

• digital processing of signals and images (reception, transmission, coding, analysis, filtration, compression, illegal access protection);

• image identification, classification and recognition using artificial neuron networks (space shots processing, missile guidance, airplane type recognition, control over robots, detection of weapons and drugs in luggage, criminalistics, rmation protection, and predictions of catastrophes and situations in finance).