Mechatronics and robotics passing score. Where to study for robotics? Information on universities and specialties
Robotics is a promising industry for at least the next ten years, because robots have become part of the new industrial revolution. It includes knowledge of mechanics, electronics and programming. Studying at a university provides not only skills and fundamental knowledge, but also the opportunity to work on real projects. Knowledge of mathematics and physics are the fundamental skills of specialists who want to create smart machines. On the basic level robotics relies on functions and equations. Even an ordinary robot vacuum cleaner uses complex mathematical functions to build a route around the room.
Where to study robotics?
Robotics is a promising industry for at least the next ten years, because robots have become part of the new industrial revolution. It includes knowledge of mechanics, electronics and programming. Studying at a university provides not only skills and fundamental knowledge, but also the opportunity to work on real projects.Knowledge of mathematics and physics are the fundamental skills of specialists who want to create smart machines. At a basic level, robotics relies on functions and equations. Even an ordinary robot vacuum cleaner uses complex mathematical functions to build a route around the room.
The Robot found out where in Russia you can get knowledge in this area. We also talked with the students, they told us why they entered robotics and whether they were satisfied with their studies at their university. The direction "Mechatronics and Robotics" corresponds to the specialty code 15.03.06, however, robotics can be taught in other areas, for example, "Automation of technological processes and production" (15.03.04). And all areas of training, one way or another related to mechanical engineering, begin on 15.XX.XX. At the same time, artificial intelligence technologies and the basic foundations of robotics can be learned in the direction of the group "Mathematics and Mechanics" (01.XX.XX) or "Computer and Information Sciences" (02.XX.XX).
To find out what disciplines will be studied during the four years of study, it is enough to find the curriculum of the program. This is easy to do: enter the name of the program and university in the search engine, add “curriculum” at the end.The curriculum will help you get an idea of what you will be doing for the next 4 years. It is also useful to read information about partner companies of the department or faculty on the pages of interested programs. Most often, universities have signed an internship agreement with these companies and there are agreements on the employment of students after graduation.
Below we have prepared a table with information on admission to one of the leading universities in Moscow, St. Petersburg and other regions of Russia.
Moscow
Faculty | Direction | Entrance tests | Passing score in | Quantity budget places | |
2017 | |||||
MSTU im. N. E. Bauman | Special engineering | Mechatronics and Robotics (Robotic systems and mechatronics) | R M F | 271 | 92 |
Mechatronics and Robotics (Underwater robots and vehicles) | R M F | 247 | |||
Robotics and integrated automation | Automation of technological processes and production | R M F | 264 | 51 | |
MTU | Mechatronics and Robotics | R M F | 217 | 48 | |
NRNU MEPhI | Physical and technological | Mechatronics and robotics in the nuclear industry | R M F | 10 | |
MPEI | Institute of Power Engineering and Mechanics | Computer control technologies in robotics and mechatronics | R M F | 217 | 27 |
Mikhail, Moscow Power Engineering Institute
I entered the MPEI because my friends graduated from the university, and I often hear positive reviews about him. At the university they give good knowledge in mathematics and engineering graphics, it is believed that MPEI is almost the best in this. Our lectures are attended by students from other universities. Before that, he studied at MIIT, he did not live up to expectations at all. Now I am delighted with my institute. Unlike many other universities, we are not loaded in the humanities, and the key subjects are related to mechanics.
We don't really study programming languages: there was a slight fling with C++ and that's it. And it is difficult to implement your projects, because there is no person who will help with advice, no good equipment, no good access to existing equipment. If we talk about the quality of education, then in the previous semester we had pairs in one subject, our headman, who himself does not understand anything about this. There is no involvement and encouragement to create projects - this is really frustrating at the university. Little practice, tons of theory. Without the application of knowledge, all this is forgotten at once.
St. Petersburg
Faculty | Direction | Entrance tests | Passing score in | Number of budget places | |
2017 | |||||
Saint Petersburg State University of Information Technologies, Mechanics and Optics | R M I | 255 | 56 | ||
Control systems and robotics | Digital production | R M I | no data | 10 | |
St. Petersburg State University | Mathematical and mechanical | Mechanics and mathematical modeling | R M I | 249 | 20 |
Applied Mathematics and Computer Science | R M I | 254 | 45 | ||
SPbSPU | Institute of Metallurgy, Mechanical Engineering and Transport | Robotics | R M F | 223 | 50 |
BSTU "VOENMEH" D.F. Ustinov | Information and control systems | Mechatronics and Robotics | R M F | 202 | 36 |
GUAP | Institute innovative technologies in electromechanics and robotics | Robotics | R M F | 213 | 17 |
R - Russian language, M - mathematics, F - physics, I - computer science and ICT
Alexey, ITMO University
As a child, I liked to collect simple electrical circuits. Bulbs from flashlights, LEDs from lighters, motors from players - everything went into business.
At school, I got acquainted with programming, which also interested me. Robotics is an area in which, as it seemed to me, both of the above-mentioned directions of my interests are realized. So by the end of ninth grade, I decided to get higher education at ITMO University.
Expectations from the university were not justified. Having only one desire, but not having sufficient knowledge, there was nothing to do at the university. The naive assumption that the university would teach me turned out to be wrong. The university only provides an opportunity to study.
ITMO teaches robotics according to several standards at different departments . At the Department of Control Systems and Informatics (SUiI), where I studied, the theory of automatic control is at the forefront. There are several courses on mechanics, mechatronics, materials and their processing.
Programming is considered a skill in the CS&I department, so you need to learn languages on your own. The main tool is Matlab and Simulink. In the course of training, C, Assembler, CFC will be affected.
During the training, I had the opportunity to work with LEGO Mindstorms and Beckhoff. The design office also has KUKA, Roomba, Boe-Bot, TRIK, Intel Galileo, Raspberry Pi and everyone is very passionate about ROS. The Design Bureau (KB) is a voluntary business.
In the educational program, as such, there are no projects. You can independently join a design bureau or laboratory and conduct a project on their basis. This is done freely, and subsequently you can work in the laboratory for a salary.
The quality of education is difficult to assess. Since it is the opportunity to get an education, and not education as such, that is given. A very large role is played independent work. So with the ability to study independently, you can get out of the university very a good specialist. In the absence of such skill and insufficient level self-organization can, on the contrary, come out as nobody.
I was waiting to be taught everything. Take by the hand and lead me into the world of my dreams. They will present on a silver platter all the knowledge that is not in my head, chew it properly, and put it in my mouth. This did not happen. Therefore, I very soon hit hard on reality. I lacked knowledge, mainly in the field of mathematics. I lacked discipline. And I was absolutely incapable of assimilating the material on my own. But I did not admit my unsuitability, so by inertia I sunk to receiving a bachelor's degree and entering a master's program. In graduate school, I was already able to recognize the lack of potential in myself and graduated of my own free will.
Vasily, BSTU "VOENMEH" named after A.I. D.F. Ustinov
I went to university to study radio engineering. Expectations from the university were justified, I studied only one semester, therefore, apart from general subjects, nothing much has been studied so far. Now the main emphasis is on mathematics, programming (we studied Pascal, will be C) and physics.
So far, I'm only studying at the university. I work at the Robotics Center at PFML No. 239. He participated in a bunch of all sorts of competitions, from the last - he was preparing with the team for [email protected], where I work on the hardware part of the project.
Now there are a lot of "extra" items. For me, this is the so-called mandatory point that I have to go through in order to be able to do something further. There are also benefits, but this stage she looks a bit.
I am not 100% sure that I will stay in robotics, although I am interested in electronics, and I will definitely do it. Robotics is a combination of many factors, where electronics is important, but you won't get far without the rest.
Regions
Faculty | Direction | Entrance tests | Passing score in | Number of budget places | |
2017 | |||||
TSU (Tomsk) | Physical and technical | Mechatronics and Robotics | R M F | 221 | 25 |
applied mechanics | R M F | 202 | 25 | ||
TPU (Tomsk) | Institute of Cybernetics | Mechatronics and Robotics | R M F | 219 | 40 |
UrFU (Yekaterinburg) | Institute of New Materials and Technologies | Mechatronics and Robotics | R M F | 201 | 25 |
Tyumen State University (Tyumen) | Institute of Mathematics and Computer Science | Mechatronics and Robotics | R M F | 16 | |
NSTU (Novosibirsk) | Mechanical and technological | Robotic systems and complexes | R M I | - | 0 |
Mechatronics and Automation | Power industry and electrical engineering | R M F | 204 | 102 | |
FEFU (Vladivostok) | School of Engineering | Automation of technological processes and production (in mechanical engineering) | R M F | 143 | 20 |
Mechatronics and Robotics | R M F | 189 | 15 | ||
SGTU im. Gagarina Yu.A. (Samara) | Institute of Electronic Technology and Mechanical Engineering | Intelligent Robotics | R M F | 200 | 17 |
SFU (Krasnoyarsk) | Polytechnical Institute | Mechatronics and Robotics | R M F | 153 | 18 |
R - Russian language, M - mathematics, F - physics, I - computer science and ICT
Alexey, Tomsk Polytechnic University
From school he was interested in physics and was going to become an engineer, choosing between nuclear physics and robotics. As a result, I chose robotics, based on the fact that the direction is actively developing in recent times and there are many interesting challenges.
Expectations from the university were partially justified. At our university, more attention is paid to the theory of control and industrial automation, as well as to the electric drive. From programming languages, we studied C, Matlab and Python. As a creative project in the first year, we worked with the Lego Mindstorms platform, and in the second year we studied the Festo Robotino platform.
In my third year, I became interested in machine learning. Since then, he has been implementing traffic sign recognition algorithms as research work students, did an internship at the Tomsk branch of NTR Lab, where we worked on projects in the field of deep learning, and as a final work I participate in the team for developing a transport robot with the functions of recognizing people and following selected targets.
The university has young teachers who are interested in implementing projects in robotics, so if you wish, there is an opportunity to participate in the implementation of interesting ideas.
Unfortunately, the program at our university is somewhat outdated, so you have to get up-to-date knowledge on your own. On the one hand, this gives a good experience of self-education, but on the other hand, outdated items give an extra load. At the same time, TPU teaches good fundamental knowledge in the field of the theory of automatic control and electric drive.
In my opinion, our university pays little attention to computer science and, in particular, machine learning. When studying programming languages, such important sections as the theory of algorithms and data structures are missed. Machine learning, which is a fairly common thing in modern robotics, is unfortunately not taught.
For now, I intend to continue to develop in the field of machine learning, but with a shift to the server side of web development. But it is possible that I will also participate in some project in the field of robotics.
Anatoly, YarGU im. P.G. Demidov
As a child, I was always attracted to robots. I wanted to learn how to make them myself. But there was no specialty of robotics in the city. I decided to enter the university with a degree in radiophysics and electronics (as it was called). I thought that by learning how to work with electronic components I can make robots.
It so happened that at one of the departments they began to work on a mobile manipulator (a small 3-link manipulator mounted on a caterpillar platform). We have already worked on the management of the platform. But students were needed to manage it. I became one of them. And as a result, he defended his diploma on the development of a manipulator control algorithm.
Since I entered Faculty of Physics, then we were taught theory to a greater extent. There are also applied specialties, for example, radio engineering and infocommunication technologies. Without general physics, mathematical analysis, differential equations could not do. Otherwise, the rest of the material would not be understood. Studied analog and digital electronics, theory of circuits and signals.
At our faculty, programming is perceived as a way to solve the problems of modeling various radiophysical processes. And, proceeding from this, we were taught not programming itself, not the art of writing programs, but through programming they explained the essence and mechanisms of processes. And we did it on Turbo Pascal. They demanded from us not a beautiful code and a fast running program, but the correct output of data for any initial conditions. They studied object-oriented programming in Delphi, but they also taught the basic essence on it. There were also more specific modeling environments (Mathcad, Matlab). There was a course on programming microcontrollers in assembler.
I think that for this specialty such courses are quite enough. Most importantly, what was being studied was not a specific programming language, but the principle of how to get the computer to perform the necessary actions. And it helped me a lot in the future to learn almost on my own C for programming AVR microcontrollers and C # to create a control program with a graphical interface. Of course, the level at which I studied languages is purely amateur, but it is enough to solve problems.
At the department where I studied (now it is called Infocommunication Technologies), if a student had an idea, then it was definitely promoted. Because it is much more pleasant to do what is interesting. So their projects were very encouraged. Especially if the project was interesting and useful not only for the student.
I was engaged in the control algorithm of manipulators. The task was to solve the inverse kinematics problem for a specific model that was in the department and implement it on a microcontroller (a microcontroller is needed to control the servos that rotate the manipulator links). As a result, I got a robot that could be controlled manually through software installed on a computer or using a keyboard, gamepad, touch screen and leap motion - a device that determines the position of a person's palm above itself. Implemented autonomous modes: from the banal shifting of objects, like a conveyor robot, to drawing letters and words.
They teach well at the university. Teachers know their subject, they know how to tell and explain it to the student. Everything I wanted from my studies, I got. And my dream came true to make a robot, even though it is not yet smart enough.
After graduating from the university, I did not start working in robotics, because there is no work in this area in Yaroslavl (except for education), and I did not want to move.
Louise, Moscow State University M. V. Lomonosov (branch in Tashkent)
I entered the branch of Moscow State University at the Faculty of Applied Mathematics and Informatics to learn how to program. In fact, it turned out that they mainly teach mathematics. Many subjects, ranging from mathematical analysis and linear algebra and ending with the equations of mathematical physics. But we are going through programming and now we are studying C ++, before that we studied C, got an idea about Assembler and web development. The load at the university is huge, while the quality of education could be better. There is not enough time to study something outside, however, I will continue to do robotics.
Where else to look for universities?
« Study.ru " - most large catalog universities and curricula in Russia and abroad. On the portal, you can choose the specialty you are interested in, compare programs, find out the cost of education, passing scores and admission conditions. Almost everything you need to know to make a list of universities and directions.
The second site - "Apply online » - helps to assess the chances of entering the chosen university or specialty. With the help of the USE calculator, you can find out the possible options.
(TsNII RTK)
short information
Leading scientific organization in the field of creating means of technical cybernetics and robotics for space, air, land and sea-based. The main scientific and technical areas of activity of the Central Research Institute of the RTK are mechatronics and robotics, intelligent systems control, photonic and optoelectronic engineering, special and space instrumentation, laser technologies, space technologies, information and control systems and simulators. Among the Institute's developments are information support devices for soft landing and life support systems for spacecraft, mobile robotic complexes for special applications and security, radiation control and monitoring devices, vision systems for the protection and control of objects, network processors (screens) and information security systems, automated laser technological complexes for high-performance processing of materials.
Founded (created)
The institute was founded in 1968. In 1994, the Central Research Institute of the RTK was awarded the status of the State Scientific Center Russian Federation, preserved to the present by the relevant regulations of the Government of the Russian Federation (1997, 2000, 2002, 2004, 2007, 2009, 2011, 2013).
Work on priority areas and critical technologies for the development of science, technology and technology
Performs work in priority areas: "Security and counter-terrorism", "Promising types of weapons, military and special equipment", "Transport and space systems”, “Information and telecommunication systems”, “Nanosystems industry”, “Rational nature management”, “Life sciences” and critical technologies: “Basic and critical military and industrial technologies for creating promising types of weapons, military and special equipment”, “Biomedical and veterinary technologies", "Nano-, bio-, information, cognitive technologies", "Technologies of information, control, navigation systems", "Technologies for monitoring and predicting the state of the environment, preventing and eliminating its pollution", "Technologies for preventing and eliminating emergencies of natural and technogenic nature”, “Technologies for creating high-speed vehicles and intelligent control systems for new modes of transport”, “Technologies for creating rocket-space and transport equipment of a new generation”.
Participation in the implementation of technological platforms
The Central Research Institute of the RTK is the co-coordinator of the technological platform "Technologies of mechatronics, embedded control systems, radio frequency identification and robotics".
Innovation projects
Multifunctional mobile robotic complexes for conducting radiation reconnaissance and carrying out technological operations under conditions of radiation exposure. Conceptual design of intelligent navigation systems and group control of mobile robotic complexes. Alpha-beta-gamma radiometer. Portable visualization system for gamma radiation sources. Photon altimeters and soft landing control systems for spacecraft. Perspective transport and handling system for space applications. Modular robotic systems for space exploration. Intelligent vision systems for safety. Network-centric systems for controlling constellations of planetary robots from aboard manned orbital stations. Specialized manipulation system.
Research experimental base
Unique complex stands for space and ground robotics, photonic technology and its components, including a stand for simulating weightlessness and testing large objects (included in the List of unique installations of the Russian Ministry of Education and Science). Center for collective use of scientific equipment "Laser, optical and test complex". Center for Microrobotics and Technical Cybernetics of the Federal Security Service of Russia.
Patents, certificates
115 patents and certificates (29 for inventions, 19 for utility models, 67 for computer programs).
Number of staff engaged in research and development
579 people, including 2 academicians of the Russian Academy of Sciences, 1 corresponding member of the Russian Academy of Sciences, 5 doctors of sciences, 30 candidates of sciences.
Availability of agreements with higher education institutions
St. Petersburg Poly Technical University Peter the Great, State Scientific Research Testing Institute of Military Medicine" of the Ministry of Defense of the Russian Federation, St. Petersburg State University Aerospace Instrumentation, Moscow Technological University, A.F. Ioffe, Samara State Technical University, National Research Tomsk State University, Southwestern State University, Tambov State Technical University.
Basic departments, scientific schools
At the Central Research Institute of the RTK, the departments of the St. Petersburg State Pedagogical University - "Mechatronics and Robotics" and "Telematics" operate
Scientific schools: "Photonic Technology", "Extreme Robotics", "Special Instrumentation", "Laser Technologies", "Telematics".
Main partners
The Institute cooperates with institutes of the Russian Academy of Sciences (IMASH RAS, SPII RAS, IAPU FEB RAS, IPMech RAS, M.V. Keldysh Institute of Applied Mathematics RAS, etc.), Russian universities (SPbPU, SUAI, SPbGMTU, ITMO University, SPbGETU (LETI), VKA named after A.F. Mozhaisky, BSTU "VOENMEH" named after D.F. Ustinov, MSTU named after N.E. Bauman, MSTU "STANKIN", NRU "MPEI", MIET, SFU), scientific organizations and industrial enterprises (JSC RSC Energia named after S.P. Korolev, FSUE TsNIIMash, FSUE KB Arsenal, FSUE TsAGI, JSC MZ Arsenal, JSC Central Design Bureau MT Rubin, JSC RCC-Progress, JSC Zavod Tula ”, GKNPTs named after M.V. Khrunichev, LLC NPP Advent, CJSC NTC Rokad, NPO Special Materials, TsTSS).
International scientific and technical cooperation
Foreign partners of the Central Research Institute of RTK are Nissan Motor, the Institute of Robotics and Mechatronics of the DLR, the Chinese Space Agency and a number of other foreign firms and organizations.
The idea of creating our own building for the now Central Research Institute of Robotics and Technical Cybernetics (TsNII RTK) arose in Leningrad at the turn of the 1960s and 70s, when a Special Design Bureau (OKB) was created on the basis of the Polytechnic Institute for the needs of the defense industry. The place was not chosen by chance: just not far from the Polytechnic University (only 2 km), surrounded by Sosnovka Park and Benois Garden (got its name in the 21st century, and then it was part of the Lesnoye state farm, before the revolution there was a summer farm of the architect Julius Benois ). Surrounded by greenery and next to the main building - just what you need for classified work: the Soviet Design Bureau created systems for spacecraft (Soyuz, Luna-16, Buran). At the time of the construction of the building, Leningrad was actively growing with new sleeping areas, and the futuristic skyscraper could become a local landmark surrounded by the monotonous "panels" of the Kalininsky district.
The project of the building was developed in 1973 in the style of "Soviet modernism" that prevailed in the 1960-80s. Construction dragged on for a long 16 years, which, according to one of the authors of the project, Stanislav Vasilyevich Savin, now an honored architect of the Russian Federation, "actually a very long time for the seventies and eighties". The facility at the corner of Tikhoretsky and Svetlanovsky prospects began to be built under Brezhnev, and completed under Gorbachev. During this time, the OKB became an independent institution.
True, the author himself refers the project to a different style. "The building of this institute was my first work as part of a team of authors. Our teacher Sergei Borisovich Speransky supervised the entire process. If you remember, in 1975, Soviet architects had just begun to try their hand at postmodernity - probably, this is also why I was especially It is interesting to work on this project. Then I felt that this style would be a kind of turning point in domestic urban planning and, unlike typical Soviet housing construction, would become a "lifeline", and, perhaps, a kind of "breakthrough" of Leningrad architecture", - said Stanislav Savin in an interview with Ardis magazine (No. 48, 2011).
The building complex has the shape of a cross in plan, slightly curved in the western part. The dominant feature is a 77-meter tower in the form of a "concrete tulip", located on a hill in the southern part and facing two avenues. There is a huge laboratory for testing space technology (the Buran manipulator was located there). Together with the antenna, completed in the 1990s, the height of the building is almost 105 meters.
The 4-story main building rests on a 1-story pedestal and looks dynamic due to the smooth curve along Tikhoretsky Prospekt. Tape glazing is complemented by "breeze-salts", a system of vertical lintels, which partially protects the premises from sunlight, which is already not too much in the Northern capital. The part of the building facing east, on Svetlanovsky Prospekt, is a 2-story "ship" hanging over the ground and semi-underground rooms and resting on tall thin columns.
The article was prepared by Pavel Kuznetsov for the site
Field photos were taken by the author specifically for the site in July 2016.
Based on materials from ipetersburg.ru, citywalls.ru, d-c.spb.ru and spb.kp.ru
TSU has a training area: "Mechatronics and Robotics".
03/15/06 Bachelor's degree, 25 state-funded places. Entrance tests - Mathematics, Physics, Russian language.
03/01/03 Bachelor, 15 budget places. Entrance tests - Mathematics, Physics, Russian language.
Students study subjects: computational mechanics, mechanics of fluid, gas and plasma, physical mechanics of continuums, modeling and prediction of disasters.
Higher School of Information Technologies and Information Systems of Kazan Federal University (ITIS KFU)
We have a direction of preparation " Software engineering”, within which we have a number of popular and modern specializations. Here are some of the directions:
1. Development of complex software systems on various platforms (software engineering itself):
- development on the Java platform;
- development on the .Net platform;
- mobile application development (iOS, Android, Windows, Tizen);
- development of web applications (based on frameworks based on Ruby, Python, PHP);
- project management in software development;
- quality assurance in software development projects;
- database and knowledge base management systems.
2. Intelligent robotics.
3. Internet of things, smart social and urban environment.
4. Data mining (projects similar to Siri, Palantir, etc.).
5. Virtual and augmented reality, development of computer games.
Full-time form of education. There are bachelor's, master's and postgraduate studies (including for postgraduate studies, a double degree program is possible with foreign universities).
There is a budget, a contract, grant places (MIS RT pays for training, then the graduate works for as many years as he received a grant, in a company that is registered in the Republic of Tatarstan, the grant is extended every year, subject to good studies).
In 2017, we have one of the highest passing scores in KFU: for the budget 258 (79 places this year), grant places 231 points (50 places), contact 200 points, 31st place.
- « Development of software and information systems". (33 budget places, 24 contracts).
- « Intelligent Robotics"(5 budget, 10 contract places).
Tuition fees: there are no exact figures for this year yet. Last year's cost: 121,800 (bachelor's) and 144,600 (master's). This year, the cost will increase by 3-4%, traditionally, as in all universities.
Why us? This is a great question! Because today we are the best in the training of IT personnel in the Republic of Tatarstan and in Russia. We are preparing unique specialists in high-demand industries: the Internet of Things, robotics, visualization, 3D modeling, neuromorphic computing, machine understanding, intelligent search, etc. Our students get a lot of practice and can work from the second year. Our curriculum has many practical exercises from industry professionals who work in large Russian and international companies.
Our students, starting from the second year, are already working in large private and state-owned companies in Russia. Specialization begins in the 3rd year.
Siberian Federal University (SFU)
Information in the direction " Mechatronics and Robotics» Siberian federal university:
- Implemented at the Polytechnic Institute of the Siberian Federal University.
- Direction of training 15.03.06 "Mechatronics and robotics", bachelor's degree.
- Full-time form of education.
- The number of budget places - 18, under contracts for the provision of paid educational services- 7, the cost of training is 154,306 rubles. per academic year.
- In 2017, the passing score for budget places was 153, the competition was 9.4 people/place.
Employees of the department "Robotics and Technical Cybernetics" have extensive experience in automating technological processes at the enterprises of the Krasnoyarsk Territory, Sverdlovsk region, Altai Territory and the Republic of Sakha-Yakutia. Students are winners of Russian and regional festivals and competitions in robotics.
Eight laboratories of the Department of Robotics and Technical Cybernetics are equipped with industrial robots, Siemens automation equipment, CNC machines, microprocessor, sensor and computer equipment. This allows you to: explore, design and operate mechatronic and robotic systems, automation tools based on microprocessor, drive technology and industrial logic controllers (PLC) from Siemens, program microprocessors and PLCs in the WinCC SCADA system, PDM systems and Matlab scientific environments and Mathcad.
Moscow Aviation Institute (MAI)
Speciality: Aircraft Integrated Systems.
Passing score: 198.
Tuition fee: 201 720 rub. (full-time); 79 800 rub. (part-time).
Institute "Control Systems, Informatics and Power Industry" and Faculty "Robotic and Intelligent Systems".
Speciality: Aircraft control systems.
Form of education full-time / part-time.
Passing score: 194.
Tuition fee: 201 720 rub. (full-time); 79 800 rub. (part-time)
Faculty of Aircraft Radio Electronics and Institute of Aerospace Science-Intensive Technologies and Production.
Speciality: Design and technology electronic means
.
Passing score: 206.
Institute "Control Systems, Informatics and Power Industry".
Speciality: Software engineering.
Full-time form of education.
Passing score: 264.
Faculty of Aircraft Radioelectronics.
Speciality: Radio engineering.
The form of education is full-time / part-time / part-time.
Passing score: 196.
Tuition fee: 150 230 rub. (full-time); 59 210 rub. (part-time/part-time).
Institute of Material Science and Technology of Materials.
Speciality: Automation of technological processes and production.
Full-time form of education.
Passing score: 176.
Tuition fee: 150 230 rub.
Tyumen State University (Tyumen State University)
« Mechatronics and Robotics»
The program prepares bachelors involved in the setup and operation of mechatronic and robotic systems for use in automated production, as well as diagnostics, condition monitoring and testing of subsystems. The training is carried out on the basis of professional industrial components at the stations of the modular production system FESTO MPS - the world's leading supplier of automation technologies, a leader in industrial training and educational programs. The direction is in demand for intensively developing manufacturing enterprises.
Moscow State Technical University (MSTU) named after N. E. Bauman
Chair SM-7 " Robotic systems and mechatronics”is part of the Faculty of Special Engineering of the Moscow State Technical University. N.E. Bauman. The department trains students on a two-level system "bachelor-master" in the direction of "Mechatronics and Robotics", in particular, bachelors are trained in the profiles "Control in mechatronic systems", "Autonomous and remote mobile robots and space manipulators", "Industrial and service robots and robotic systems" and the preparation of masters in the fields "Control of robotic systems", "Robots and manipulators special purpose” and “Industrial and service robots”. Full-time full-time education is carried out on the basis of budget financing or on a paid basis (the cost of education is 257,572 rubles per year for bachelors and 286,816 rubles per year for masters). Part of the budget places are allocated for targeted training based on applications from organizations of the military-industrial complex subordinate to: the Ministry of Industry and Trade of the Russian Federation, the State Space Corporation Roscosmos, the State Atomic Energy Corporation Rosatom, in particular, an agreement on targeted admission at MSTU im. N.E. Bauman in the direction of training "Mechatronics and Robotics" with JSC "TSINIIAG", FSUE "TsNIIMash", FSUE "TsAGI", FSUE MOKB "Mars", AO GNPP "Region", FSUE "NPO "Tekhnomash", FSUE " SPC AP named after Academician N. A. Pilyugin, PJSC Irkut Corporation. In this case, the training is carried out taking into account the requirements of the customer enterprise, and upon graduation from the university, the graduate receives a guaranteed workplace at this enterprise (at N.E. Bauman Moscow State Technical University). The passing score for bachelors in the direction of "Mechatronics and Robotics" in 2017 was 271 for the general competition for state-funded places and 207 for targeted admission.
The training that students of the department SM-7 "Robotic systems and mechatronics" undergo, MSTU. N.E. Bauman is multilateral and multidisciplinary. Students receive special knowledge on a wide range of issues in the field of mechanics, electrical engineering, digital and analog electronics, development and modeling of automatic control systems for technical systems and other disciplines, which, combined with extensive training in basic general scientific and general technical disciplines, makes graduates of the department extremely attractive to potential employers.
Southwestern State University (SWGU)
In SWSU is directly related to robotics:Direction: 15.03.06-Mechatronics and Robotics
Faculty: Natural Science
Full-time form of education
Minimum score 2018 on an extrabudgetary basis: mathematics 27, Russian language 40, physics 36.
The cost of education in 2017 amounted to 84,380.00 rubles per year. (tuition fees for 2018 will be approved after June 15)
In addition, the university has a number of specialties related to robotics:
- 11.03.03-Design and technology of electronic means
- 28.03.01-Nanotechnologies and microsystem engineering
- 09.03.01-Informatics and Computer Engineering
- 09.03.02-Information systems and technologies
- 09.03.04-Software engineering
- 10.03.01-Information security
- 10.05.02-Information security of telecommunication systems
- 11.03.02-Infocommunication technologies and communication systems (Communication networks and switching systems)
- 12.03.04-Biotechnical systems and technologies (Biotechnical and medical devices and systems)
- 30.05.03-Medical Cybernetics
You ask: “Why should you choose SWGU?” But because:
Our graduates of all specialties are always and everywhere in demand!
It was our university that received the highest award - the "Leader of Quality" prize of the All-Russian competition "One Hundred Best Goods of Russia" for the quality of education provided to students!
Only we use the most open and democratic system of admission and enrollment!
Our developments ensure the security of the country and space flights!
It is our athletes who become Olympic champions!
It is our Prima team that is the star of the Russian KVN!
It was our creative teams that came to international level!
It is our graduates who form the innovative potential of the region and Russia!
Finally, it is not in vain that they say that the Polytechnic University is always the best!
Don State Technical University (DSTU)
Faculty of Automation, Mechatronics and Control
Directions of preparation:
full-time
Department of Automation of production processes
(Head of the department Lukyanov Alexander Dmitrievich tel. 2-738-510)
15.04.04 - Automation of technological processes and production (master's degree)
03/27/04 - Management in technical systems (bachelor's degree) - profile "Systems and means of process control"
27.04.04 - Management in technical systems (master's degree)
Department of Automated control and management systems
Department of Robotics and Mechatronics
(Head of the department Lukyanov Evgeny Anatolyevich, tel. 2-381-359)
03/15/06 - Mechatronics and Robotics (Bachelor's degree) - profiles "Mechatronics" and "Robotics and Robotic Systems"
15.04.06 - Mechatronics and Robotics (Master's degree)
09.03.01 - Informatics and Computer Engineering (bachelor's degree) - profile "Automated information processing and control systems"
09.04.01 - Informatics and Computer Engineering (Master's degree)
Department of Hydraulics, hydropneumoautomatics and thermal processes
(Head of the department Rybak Alexander Timofeevich, tel. 2-381-345)
15.04.02 - Technological machines and equipment (master's degree)
in absentia
Automation of production processes
15.03.04 - Automation of technological processes and production (bachelor's degree) - profile "Automation of technological processes and production in mechanical engineering"
Hydraulics, hydropneumatics and thermal processes
13.03.03 - Power engineering (bachelor's degree) - profile "Hydraulic vacuum and compressor technology"
03/27/05 - Innovation (bachelor's degree) - profile "Management of innovations in industry"
Passing score:
150 points on average USE results.
Cost of a year of study:
RUB 98,200 - 100,500 rubles. depending on direction.
The faculty has 15 specialized laboratories equipped with modern equipment.
The faculty cooperates with leading enterprises of the Rostov region and global companies.
Also in DSTU there is a Robotics Resource Center, whose specialists train and educate schoolchildren and students in design, electronics and programming.
The center's students annually take part in regional, Russian and international competitions. Last year, the deBUG team took second place at the national stage of the EUROBOT 2017 International Robotic Competition.
This year, from April 20 to April 22, DSTU hosts the national stage of the EUROBOT 2018 robotic competition, 155 teams from 20 regions of Russia submitted applications for participation.
Far Eastern Federal University (FEFU)
Directions of training or specialty, educational program | Budget / paid places | Entrance tests (USE) | Tuition fees for 2017-18 academic year g. (rub/year) | Passing score 2017 on the budget | Competition 2017 people / place |
---|---|---|---|---|---|
Applied Mathematics and Computer Science, System Programming Mathematical and information support of production activities Mathematical Methods in economics | 60/5 | 155 000 | 172 | 3.9 | |
Mathematics and computer science, End-to-end digital technologies | 20/5 | mathematics (prof.), computer science, Russian language | 155 000 | 176 | 6.4 |
Mathematical support and administration of information systems, Programming technologies | 20/5 | mathematics (prof.), computer science, Russian language | 155 000 | 176 | 5.2 |
Information systems and technologies Information systems and technologies | 25/5 | 170 000 | 159 | 6.7 | |
Applied Informatics Applied Computer Science in Computer Design | 25/5 | 170 000 | 204 | 7.4 | |
Software engineering Software engineering | 50/5 | computer science, mathematics (prof.), Russian language | 170 000 | 182 | 7.2 |
Information Security Comprehensive protection of informatization objects | 25/5 | mathematics (prof.), physics, Russian language | 170 000 | 173 | 8.6 |
Computer security (c) Mathematical methods of information security | 23/7 | mathematics (prof.), physics, Russian language | 170 000 | 156 | 3.8 |
Mechatronics and Robotics Mechatronics and Robotics | 15/10 | mathematics (prof.), physics, Russian language | 130 000 | 189 | 6.8 |
Underwater robotics is one of the priority areas development of the Far Eastern Federal University (FEFU). In this area, the university has international authority, which is confirmed by the successful performances of students and graduate students at prestigious competitions. Since 2012, the FEFU team has been an annual winner in the autonomous robot class at the world RoboSub tournaments and the Singapore AUV Challenge Asian Championships. Twice became the world champion.
In March 2018, a team of roboticists from FEFU and the Institute of Marine Technology Problems of the Far East Branch Russian Academy Sciences (IPMT FEB RAS) took third place in the open Asian Championship in underwater robotics Singapore AUV Challenge. The final of the competition was held on March 12 at the Singapore Polytechnic University. Teams from 10 countries fought for the victory - Bangladesh, India, Indonesia, China, Malaysia, Pakistan, Russia, Singapore, Thailand and Sri Lanka. The team of FEFU and FEB RAS became the only representative of Russia at the competition.
Samara National Research University named after Academician S.P. Queen
Faculty | Speciality | Form of study | Passing score | Price per year |
---|---|---|---|---|
Undergraduate and Specialist | ||||
Faculty of Informatics | Direction of training 10.05.03 Information security of automated systems. Profile “Ensuring information security of distributed automated systems” | full-time | 2017: 214 2016: 240 2015: 232 | For citizens of the Russian Federation - 122,000 rubles. |
Direction of training 24.03.05 Aircraft engines. Profile “Mechatronics and Robotics (together with Peter the Great St. Petersburg Polytechnic University)” | full-time | 2017: 203 2016:192 2015:193 | ||
Institute of Engines and Power Plants | Direction of preparation.15.03.04 Automation of technological processes and productions Profile “Mechatronic and robotic complexes” | full-time | 2017: 215 2016: 226 2015: 202 | For citizens of the Russian Federation - 122,000 rubles. For foreign citizens- 134200 rubles. |
Master's degree | ||||
Institute of Engines and Power Plants | Direction of training 24.04.05 Aircraft engines. Profile “Mechatronics and Robotics (together with Peter the Great St. Petersburg Polytechnic University)” | full-time | 2017: 215 2016: 226 2015: 202 | For citizens of the Russian Federation - 122,000 rubles. For foreign citizens - 134200 rubles. |
Institute of Engines and Power Plants | Direction of training 24.04.05 Aircraft engines. Profile “Mechatronic Systems (Mechatronic Systems) (together with the Lappeenranta University of Technology)” | full-time | 2017: 74 | For citizens of the Russian Federation - 191,000 rubles. For foreign citizens - 210100 rubles. |
Institute of Rocket and Space Technology | Direction of training 24.05.01 Design, production and operation of rockets and rocket and space complexes. Profile “Manned and unmanned space vehicles and systems” | full-time | 2017: 168 2016: 149 2015: 193 | For citizens of the Russian Federation - 181,000 rubles. For foreign citizens - 199100 rubles. |
Faculty of Informatics | Direction of training 01.04.02 Applied mathematics and informatics. Profile “Data Science (Data Science) (together with Sberbank Technologies)” | full-time | 2017: 86 | For citizens of the Russian Federation - 120,000 rubles. For foreign citizens - 132,000 rubles. |
Faculty of Informatics | Direction of training 09.04.01 Informatics and computer technology. Profile “Automated information processing and control systems” | full-time | 2017: 76 | For citizens of the Russian Federation - 134,000 rubles. |
Faculty of Informatics | Direction of training 09.04.01 Informatics and computer technology. Profile “Data analysis and software quality management (together with EPAM Systems)” | full-time | 2017: 76 | For citizens of the Russian Federation - 134,000 rubles. For foreign citizens - 147400 rubles. |
Direction of training 03.04.01 Applied mathematics and physics. Profile “GNSS positioning algorithms and applications (Positioning algorithms and applications of global navigation satellite systems)” | full-time | 2017: 80 | For citizens of the Russian Federation - 134,000 rubles. For foreign citizens - 147400 rubles/td> |
|
Faculty of Electronics and Instrument Engineering | full-time | 2017: 77 | For citizens of the Russian Federation - 134,000 rubles. For foreign citizens - 147400 rubles. |
|
Faculty of Electronics and Instrument Engineering | Direction of preparation 11.04.01. Radio engineering. Profile “GNSS algorithms and hardware (Algorithms and hardware for global navigation satellite systems)” | full-time | 2017: 77 | For citizens of the Russian Federation - 134,000 rubles. For foreign citizens - 147400 rubles. |
Why should an applicant choose Samara University?
Samara National Research University named after Academician S.P. Koroleva (Samara University) is one of the leading Russian universities, the corresponding status of which is enshrined in normative documents Government of the Russian Federation and recognized by the academic community.
Samara University is one of 29 national research universities in Russia. Since 2013, she has been participating in the 5-100 Project, a Russian academic excellence initiative aimed at increasing the competitiveness of leading Russian universities among the world's leading scientific and educational centers.
Scientific activity and educational programs Samara University is directly connected with the work of the leading centers for the development and production of modern space and aviation technology.
Studying at the Samara National research university named after Academician S.P. Korolev is conducted on the principle of “education through research”. Every year more than 3,000 students take part in research, development and technological projects of Samara University and its partners.
The university has formed a unique scientific and educational complex on a global scale, which ensures the direct participation of students in all stages of the development, creation and testing of spacecraft, as well as their subsequent control in orbit.
The basis of the unique distributed space laboratory with ground and space segments is the operating orbital constellation of small spacecraft (SSC) of scientific and educational purposes of the AIST series. This group has been operating since 2013 and is part of a distributed space laboratory with ground and space segments. Now there are two first-generation AIST small spacecraft and AIST-2 Earth remote sensing small spacecraft in orbit. All these devices were created by specialists and scientists of Samara University with the active participation of students.
Omsk State Technical University (OMSTU)
The university provided information in the format pdf.
Moscow Technological Institute (MIREA)
Robotic areas of training at the Moscow Technological University
The main professions of the future are concentrated in the field of robotics today. For guys who want to create real equipment, there is the Institute of Cybernetics. it structural subdivision Moscow Technological University, which implements the training of specialists in the field of cybernetics, including information security, instrumentation, biotechnical systems and technologies, mechatronics and robotics, control in technical systems, applied mathematics and computer science. The activities of university graduates are largely related to ensuring the country's security and work in law enforcement agencies.
Areas of training and specialties
01.03.02 Applied Mathematics and Computer Science
Students receive training in the most breakthrough direction, in demand in the development of any human activity: mathematical modeling. The direction includes the study of the basic structures of computers, programming, databases and programming languages.
The knowledge and skills that students receive are necessary for the use of a computer in all areas of activity that require fundamentally new technologies.
Profiles:
Mathematical modeling and computational mathematics.
System programming and computer technologies.
Duration of study: 4 years.
Number of budget places in 2018: 65.
Passing score in 2017: 237.
The cost of training on a contractual basis in 2018: 208,000 rubles per year.
12.03.04 Biotechnical systems and technologies
The direction of training is intended for those who are interested in research and project activities in the field of biotechnical systems and technologies. Students study devices, systems and complexes for medical and biological purposes; methods and technologies for performing biomedical research; automated systems for processing biomedical information; computer-aided design and information support systems for biotechnical systems and technologies; biotechnical systems and technologies for healthcare.
Profiles:
Computer systems and technologies for processing biomedical and environmental information.
Level of education: bachelor's degree.
Duration of study: 4 years.
Number of budget places in 2018: 35.
Passing score in 2017: 201.
15.03.06 Mechatronics and Robotics
Graduates are engaged in the design and research of mechatronic and robotic systems, including autonomous robots, including information-sensor, executive and control modules, their mathematical, algorithmic and software, methods and tools for their design, simulation, pilot study, debugging and operation. Such systems are used in automated production, in law enforcement agencies, in the aftermath of natural disasters, in transport, in agriculture, medicine and other fields.
Profiles
Autonomous robots.
Level of education: bachelor's degree.
Duration of study: 4 years.
Entrance tests (USE) in 2018: mathematics, Russian language, physics.
Number of budget places in 2018: 48.
Passing score in 2017: 217.
The cost of training on a contractual basis in 2018: 188,500 rubles per year.
27.03.03 System analysis and management
Students of the direction study methods, ways and means of human activity on the basis of system analysis, management, modeling, production and operation of technical systems, objects, instruments and devices for various purposes.
The combination of a thorough natural science training with an in-depth study of systems and software engineering, information technologies, as well as special disciplines, allows graduates to conduct successful engineering, scientific and pedagogical activity in various industries.
Profiles:
Engineering of automated systems
Level of education: bachelor's degree.
Duration of study: 4 years.
Entrance tests (USE) in 2018: mathematics, Russian language, physics.
Number of budget places in 2018: 20.
Passing score in 2017: -
The cost of training on a contractual basis in 2018: 188,500 rubles per year.
27.03.04 Control in technical systems
The direction of training is designed for those who are interested in the processes of managing modern technical systems. This is one of the most developed areas of modern engineering, designed to ensure the automatic functioning of complex technical objects / complexes in environment, incl. under conditions of uncertainty. The most typical examples of such systems are various kinds of unmanned aircrafts, autonomous vehicles, autonomous submarines, special purpose rockets, etc.
Profiles:
Computer processing of information and control in technical systems
Control and informatics in technical systems
Level of education: bachelor's degree.
Duration of study: 4 years.
Entrance tests (USE) in 2018: mathematics, Russian language, physics.
Number of budget places in 2018: 30.
Passing score in 2017: 194.
The cost of training on a contractual basis in 2018: 188,500 rubles per year.
10.05.01 Computer security
Graduates of the specialty work in the fields of science and technology, in areas related to computer technology, information security, artificial intelligence, modern applied mathematics.
Specialists are engaged in the development and operation of means and systems for protecting information of computer systems, evidence-based analysis and ensuring the security of computer systems from malicious software, hardware and information impacts.
The specialty is in high demand, as the organization of reliable storage, search, processing and replenishment of information, as well as the support of information links are becoming vital tasks in every large enterprise.
Specializations:
Security analysis of computer systems
Study period: 5.5 years.
Entrance tests (USE) in 2018: mathematics, Russian language, physics.
Number of budget places in 2018: 55.
Passing score in 2017: 220.
The cost of training on a contractual basis in 2018: 208,00 rubles per year.
10.05.02 Information security of telecommunication systems
The specialty is intended for those who are interested in ensuring information security of wireless, wired, radio and optical communication systems, methods for detecting attacks and developing software and hardware protection tools, detecting and protecting information leakage channels.
Students study telecommunication systems and networks of satellite, radio and mobile communications, methods and means of information protection, means of retrieval of information, design and technological features of communication networks, methods and means of information processing, methods of modeling and developing secure communication systems.
Specializations:
Development of secure telecommunication systems
Level of education: specialty.
Study period: 5.5 years.
Entrance tests (USE) in 2018: mathematics, Russian language, computer science.
Number of budget places in 2018: 61.
Passing score in 2017: 223.
The cost of training on a contractual basis in 2018: 198,000 rubles per year.
Why choose Institute of Cybernetics of Moscow Technological University
work experience. The Institute of Cybernetics has been leading its history since 1971. Over the years of work, he has achieved leadership positions in the profile of training specialists.
Own developments. Every year, the institute carries out several dozen high-tech developments, including for the RF Ministry of Defense. Students do not lag behind the success of scientists: they are involved in the assembly of mobile robots on the Cook platform, 3D printers, 3D drawing pens and many other devices.
Advanced preparation. Mathematics at the institute is taught within the scope of the Faculty of Computational Mathematics and Cybernetics of Moscow State University named after M.V. Lomonosov. Thanks to cooperation with leading universities in France, Great Britain, and the USA, the institute has access to the most relevant knowledge that it transfers to students.
Conditions for learning. Training sessions are carried out in laboratories equipped with the latest, including unique robotic equipment, handling, transport robots of ground, air and underwater base.
Practice-oriented learning. Students in practice master real tools and technologies that are used at basic enterprises: Concern Vega JSC, Corporation VNIIEM JSC and others. Graduation works students also necessarily have a serious applied value and content. Part of graduation projects is carried out under the guidance of leading experts of recognized scientific centers RAN.
Qualified teaching staff. The Institute has a high human resource potential: 82% of teachers have an academic degree or title, 24% of them have a doctorate or professorship. Every year they publish more than 50 teaching aids, together with students they take part in dozens of scientific conferences and seminars.
Professions of the future. At the institute, you can acquire a profession that will be in high demand due to the rapid development of robotics, instrumentation, and information security. Graduates occupy such positions as a developer of complex programs, a system architect, an information security specialist, a design engineer, a roboticist in large Russian and international companies.
Opportunities for implementation. The institute has all the opportunities for scientific work of students. It is carried out at departments, basic enterprises, in modern laboratories and student design bureaus. Every year more than 100 students take part in various olympiads and competitions, where they win prizes.