Faculty of InformationFaculty of Information
Technologies andTechnologies and
RoboticsRobotics
Belarusian
National
Technic...
Belarusian National Technical University,
Faculty of Information Technologies and Robotics
•In 1983 the Faculty of Robots ...
Belarusian National Technical University,
Faculty of Information Technologies and Robotics
There are 6 Chairs at our Facul...
Belarusian National Technical University,
Faculty of Information Technologies and Robotics
List of specialties/specializat...
Belarusian National Technical University,
Faculty of Information Technologies and Robotics
Chair of ComputerChair of Compu...
The students study fundamentalThe students study fundamental
foundations of computer hardware andfoundations of computer h...
Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
The fourth year students study the Software Testing. It should beThe fourth year students study the Software Testing. It s...
Research activities are held by the Chair in the following directions:Research activities are held by the Chair in the fol...
““Comparative study of multiple-seated wheel landingComparative study of multiple-seated wheel landing
gear vibrations acc...
““Heat and electric energyHeat and electric energy
demand distribution amongdemand distribution among
turbines”turbines”
“The development of methods, algorithms and software for
the calculation of track-laying machine ride comfort in respect
w...
““Monolithic devicesMonolithic devices
production process controlproduction process control
methods and algorithmsmethods ...
Our graduates have modern knowledge and skills in the creating ofOur graduates have modern knowledge and skills in the cre...
The Chair was Founded in 1980.
Main scientific and research activities of the
Chair are related to:
• industrial robots
• ...
Main scientific and technical developments:
• Flexible robotic systems (FMS).
• Programming language and system software f...
Universal software PIMMS for modeling of manufacturing
systems
Chair of Robotic Systems
System of graphical modeling and analytical programming of
industrial robots ROBOT-2000
1
2
3 4
5
6
78
9
1
0
1
1
1
2
Chair...
Energy management software (implemented at the group
company «Belenergo»)
Chair of Robotic Systems
Computer-aided design software GrippCAD :
The program aims at providing intellectual assistance in designing
non-standard ...
Computer-aided design software GrippCAD :
Screen form
of the regime
Chair of Robotic Systems
Multipurpose industrial robot ТУР-10 with operation system
software developed at the Chair of Robotic Systems
Chair of Rob...
Scope of Activities:
Design, installation, operation of automated electric drive
of industrial and transport units, roboti...
Research interests of the Chair also include:
Development of methods for
parametric synthesis of robust and
adaptive contr...
Synthesis and study of
methods for the rapid
identification of
electromagnetic induction
motor parameters.
Research of dif...
Recent developments of the Chair of Electric DriveRecent developments of the Chair of Electric Drive::
Frequency converter...
Chair of Technical Physics
The main area of research of the Chair:
– the dynamics of structural changes and relaxation pro...
Scientific-Research Laboratory of Applied
Physics and Informatics
Self-Assembly Principles in Nanoscale
and Their Applicat...
Scientific-Research Laboratory of Applied
Physics and Informatics
Realized Self-Assembly (Examples of Our Results)
Model L...
Scientific-Research Laboratory of Applied
Physics and Informatics
Results of Joint Belarus-South Korea Scienfic Cooperatio...
Scientific-Research Laboratory of Applied
Physics and Informatics
CdSe
ZnS
N
N
H
N
N
N
H
N
“ QD-Porphyrin” Bioconjugates f...
The main areas of activity are:
• Development and production of tensometric weighing systems
and controllers, different ty...
The Laboratory has scientific and production units such as:
• experimental-industrial section;
• load cells production sec...
Electronic scales VE-15
Science and Research Innovation Laboratory
of Production Automation
Electronic scales VE-150
Science and Research Innovation Laboratory
of Production Automation
One of the Laboratory’s main areas of activity is
the automation of production lines based on weigh
batching.
More than 20...
Structural layout of an upgraded asphalt mixing plant
Science and Research Innovation Laboratory
of Production Automation
Structural layout of an upgraded asphalt mixing plant
Science and Research Innovation Laboratory
of Production Automation
Single point load cell DVT-6 (15, 30)
Science and Research Innovation Laboratory
of Production Automation
S-beam load cell DVT-100S (200S)
Science and Research Innovation Laboratory
of Production Automation
Tension load cell DVT-500 (1000)
Science and Research Innovation Laboratory
of Production Automation
Tensometric systems controller KTU-2
Science and Research Innovation Laboratory
of Production Automation
Operator’s controller
Science and Research Innovation Laboratory
of Production Automation
Operator’s console
Science and Research Innovation Laboratory
of Production Automation
Control room of an upgraded concrete mixing plant
Science and Research Innovation Laboratory
of Production Automation
Control cabinet of an upgraded concrete mixing plant
Science and Research Innovation Laboratory
of Production Automation
Water measuring hopper
Science and Research Innovation Laboratory
of Production Automation
Inert aggregates measuring hopper
Science and Research Innovation Laboratory
of Production Automation
Chemical additives measuring hopper
Science and Research Innovation Laboratory
of Production Automation
An upgraded line of a concrete mixing plant
Science and Research Innovation Laboratory
of Production Automation
Cellulose measuring hopper
Science and Research Innovation Laboratory
of Production Automation
A screenshot of the control software for concrete mixing plants
Science and Research Innovation Laboratory
of Production A...
Thank you for attention!
Belarusian National Technical University,
Faculty of Information Technologies and Robotics
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Solit 2014, Подготовка специалистов в сфере It на факультетe информационных технологий и робототехники БНТУ, Руденя Александр Леонидович

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Александр Леонидович Руденя, Минск. Ассистент Факультета информационных технологий и робототехники БНТУ.

«Подготовка специалистов в сфере IT на факультете информационных технологий и робототехники БНТУ». studentCamp.

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  • Минского завода колесных тягачей (МЗКТ) – MWTP – Minsk Wheel Tractor Plant
  • Solit 2014, Подготовка специалистов в сфере It на факультетe информационных технологий и робототехники БНТУ, Руденя Александр Леонидович

    1. 1. Faculty of InformationFaculty of Information Technologies andTechnologies and RoboticsRobotics Belarusian National Technical University
    2. 2. Belarusian National Technical University, Faculty of Information Technologies and Robotics •In 1983 the Faculty of Robots and Robotic Systems was founded. •In 1998 the Faculty was renamed into the Faculty of Information Technology and Robotics. The new name better reflects the current structure of specialties and Faculty’s development. •120 lecturers including 18 Professors and 64 Associate Professors (PhDs) work in the Chairs of the Faculty. •1466 students are currently studying at the Faculty as full-time students , 543 students - part-time.
    3. 3. Belarusian National Technical University, Faculty of Information Technologies and Robotics There are 6 Chairs at our Faculty: ‘Computer Engineering and Automated Systems Software’; ‘Computer Aided Design Systems’; ‘Robotic Systems’; ‘Electric Drive and Automation of Industrial Installations and Technological Complexes’; ‘Higher Mathematics No.1’; ‘Technical Physics’. The research work at the Faculty is conducted by: Science and Research Innovation Laboratory оf Production Automation. Scientific-Research Laboratory of Applied Physics and Informatics.
    4. 4. Belarusian National Technical University, Faculty of Information Technologies and Robotics List of specialties/specializations at the Faculty in 2012 Specialty, specialization Qualification Number of students accepted to study at the Faculty in 2012 Full-time Part-time 40 01 01 Software of information technologies Engineer-programmer 61 60 40 01 02 - 01 Information Systems and Technologies (in Design and Manufacturing) Engineer-programmer 58 - 40 01 02 - 04 Information Systems and Technologies (in Information Processing and Representation) Engineer-programmer 60 - 53 01 01 - 02 Automation of Technological Processes and Industries (in Instrument Making and Radioelectronics) Automation engineer 20 - 53 01 01 - 10 Automation of Technological Processes and Industries (Energetics) Automation engineer 19 - 53 01 02 Automated Systems of Information Processing Information technologies engineer 26 - 53 01 05 Automated Electric Drives Engineer-electrician 54 60 53 01 06 Industrial Robots and Robotics Complexes Engineer-electromechanic 21 - Total number of first year students in 2012: 319 120
    5. 5. Belarusian National Technical University, Faculty of Information Technologies and Robotics Chair of ComputerChair of Computer Engineering & AutomatedEngineering & Automated Systems SoftwareSystems Software
    6. 6. The students study fundamentalThe students study fundamental foundations of computer hardware andfoundations of computer hardware and software, technologies of program andsoftware, technologies of program and computer systems developing, networkcomputer systems developing, network computer integration, data basecomputer integration, data base organization, information securityorganization, information security problems, local and network applicationsproblems, local and network applications developing.developing. The department also trains candidates forThe department also trains candidates for master’s degree and PhD with the specialtymaster’s degree and PhD with the specialty System analysis, information management andSystem analysis, information management and processing.processing.
    7. 7. Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
    8. 8. Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
    9. 9. Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
    10. 10. Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
    11. 11. The fourth year students study the Software Testing. It should beThe fourth year students study the Software Testing. It should be noted that our University is the only higher educationalnoted that our University is the only higher educational establishment in Belarus, where the subject is studied. Alsoestablishment in Belarus, where the subject is studied. Also interesting is the fact that, according to an online survey of ITinteresting is the fact that, according to an online survey of IT companies for the year 2011, the vast majority of the testers arecompanies for the year 2011, the vast majority of the testers are graduates of our faculty.graduates of our faculty. The students learn Unit Testing, Functional Testing, RegressionThe students learn Unit Testing, Functional Testing, Regression Testing, Automated Testing (the methods of Data-Driven andTesting, Automated Testing (the methods of Data-Driven and KeyWord-Driven), Static Testing and other types of testing. WeKeyWord-Driven), Static Testing and other types of testing. We study tools such as MS Test, NUnit, JUnit, Selenium IDE/RC,study tools such as MS Test, NUnit, JUnit, Selenium IDE/RC, TestComplete. We test real projects and also have own bugTestComplete. We test real projects and also have own bug tracking system. Thus, successful students can easily find a job oftracking system. Thus, successful students can easily find a job of Software Tester or QA EngineerSoftware Tester or QA Engineer ((Quality Assurance EngineerQuality Assurance Engineer)).. Academic disciplines taught at the ChairAcademic disciplines taught at the Chair
    12. 12. Research activities are held by the Chair in the following directions:Research activities are held by the Chair in the following directions:  The improvement of dynamic qualities of cylinder-circularThe improvement of dynamic qualities of cylinder-circular devices on the basis of their structural componentsdevices on the basis of their structural components reasonable characteristics choicereasonable characteristics choice  Information Systems SoftwareInformation Systems Software
    13. 13. ““Comparative study of multiple-seated wheel landingComparative study of multiple-seated wheel landing gear vibrations according to live testing and computergear vibrations according to live testing and computer modeling on the basis of ADMOS complex”modeling on the basis of ADMOS complex”
    14. 14. ““Heat and electric energyHeat and electric energy demand distribution amongdemand distribution among turbines”turbines”
    15. 15. “The development of methods, algorithms and software for the calculation of track-laying machine ride comfort in respect with nonlinear suspension characteristics changes during the moving”
    16. 16. ““Monolithic devicesMonolithic devices production process controlproduction process control methods and algorithmsmethods and algorithms development”development”
    17. 17. Our graduates have modern knowledge and skills in the creating ofOur graduates have modern knowledge and skills in the creating of software that implement computer modeling of systems and processes,software that implement computer modeling of systems and processes, presentation, storing, security and processing of the information with thepresentation, storing, security and processing of the information with the help of different source environmentshelp of different source environments The ChairThe Chair graduates are IT-graduates are IT- specialists: futurespecialists: future project managers,project managers, programmers,programmers, system admins ofsystem admins of state andstate and commercialcommercial organizations oforganizations of different branchesdifferent branches
    18. 18. The Chair was Founded in 1980. Main scientific and research activities of the Chair are related to: • industrial robots • process automation Chair of Robotic Systems Belarusian National Technical University, Faculty of Information Technologies and Robotics
    19. 19. Main scientific and technical developments: • Flexible robotic systems (FMS). • Programming language and system software for the first Belarusian robot ТУР-10. • Universal software PIMMS for modeling of manufacturing systems. • System of graphical modeling and analytical programming of industrial robots ROBOT-2000. • Energy management software. • Computer-aided design software GrippCAD for parts of robots with artificial intelligence. • Software and hardware solution for the non-destructive testing of facilities and objects using their own radio emission. • Software and hardware solution for remote diagnosis of bridges, buildings and structures. • About 300 inventions in the field of robotics, mechanical engineering and energetics. Chair of Robotic Systems
    20. 20. Universal software PIMMS for modeling of manufacturing systems Chair of Robotic Systems
    21. 21. System of graphical modeling and analytical programming of industrial robots ROBOT-2000 1 2 3 4 5 6 78 9 1 0 1 1 1 2 Chair of Robotic Systems
    22. 22. Energy management software (implemented at the group company «Belenergo») Chair of Robotic Systems
    23. 23. Computer-aided design software GrippCAD : The program aims at providing intellectual assistance in designing non-standard grippers of industrial robots. The program should find a ready solution, if known, a close analogue for modernization, or help find an idea of a new solution. The program assistance in search of an idea consists in efficient management of the thinking process and provision of generalized expertise obtained from the global patent fund.Subject area Usersand and Provision of help in grippers designing and inventing Known gripper designs fund TRIZ and gripper designs textbook Designers, technologists Patents specialists Professors, students Machine building Robotics Grippers Functions PURPOSE World patent fund (TRIZ basis) Data base on TRIZ tools and and 2 000 gripper designs analyzed during a classifier elaboration 300 inventions on grippers from Russia, Switzerland and Belarus selected as samples and analogues Bank of gripper inventions 400 000 inventions from different countries and engineering fields analyzed in TRIZ to select the best 40 000 best inventions selected to reveal TRIZ tools 50 methods for solving technical contradictions 60 schemes of standard solution with the help of substances and fields 130 effects from physics, chemistry and mechanics 12 laws of engineering systems development DATA BASE The information basis of the program is: • classification and statistical data on invention problems and tools applied for their solution • known gripper designs from patent funds of Russia, Switzerland and Belarus Chair of Robotic Systems
    24. 24. Computer-aided design software GrippCAD : Screen form of the regime Chair of Robotic Systems
    25. 25. Multipurpose industrial robot ТУР-10 with operation system software developed at the Chair of Robotic Systems Chair of Robotic Systems
    26. 26. Scope of Activities: Design, installation, operation of automated electric drive of industrial and transport units, robotics complexes, scientific and experimental work. Chair of Electric Drive Belarusian National Technical University, Faculty of Information Technologies and Robotics Major scientific research activities of the Chair are connected with the improvement of electrical systems based on semiconductor power converters and non-contact electric motors as well as with the development of methods for identification of parameters of motor control systems.
    27. 27. Research interests of the Chair also include: Development of methods for parametric synthesis of robust and adaptive control systems based on electric drive PID controllers Investigation of innovative methods of energy conversion in Wind Turbines with stored energy Chair of Electric Drive
    28. 28. Synthesis and study of methods for the rapid identification of electromagnetic induction motor parameters. Research of different SMPM designs for the use in various types of industrial mechanisms. Modernization of different crane mechanisms electric drives (travel and hoisting). Chair of Electric Drive
    29. 29. Recent developments of the Chair of Electric DriveRecent developments of the Chair of Electric Drive:: Frequency converter with induction motor used to control air conditioning compressor of a railway wagon. Introduced in the railway passenger wagons at theIntroduced in the railway passenger wagons at the Belarusian Railway).Belarusian Railway). Thyristor-pulse control system of a traction electric drive. Implemented at theImplemented at the trolleybustrolleybus plantplant "Belkommunmash“."Belkommunmash“. Demagnitizator used to demagnetize large bearing rings. Introduced at the MinskIntroduced at the Minsk Bearing Plant.Bearing Plant. Chair of Electric Drive
    30. 30. Chair of Technical Physics The main area of research of the Chair: – the dynamics of structural changes and relaxation processes in self- assembled nano-sized objects of different types: multporfirin ensembles, the pigment-protein complexes, nanocomposites based on semiconductor quantum dots and functional organic ligands. THERMOMANAGEMENT OF POWERFULL PHOTODIOD Supervised and conducted by the Head of the Chair - I.A. Khorunzhii, PhD Recent scientific and research work of the Chair:
    31. 31. Scientific-Research Laboratory of Applied Physics and Informatics Self-Assembly Principles in Nanoscale and Their Applications in Nanobiophotonics Prof. Eduard Zenkevich Accredited expert of Russian Corporation of Nanotechnologies «RОSNANO» (certificate № 504) Objectives: Bottom-up Self-assembly, namely the spontaneous or driven association of organic and inorganic counterparts, is the basis of many successful strategies to produce nano- and mesoscopic structures that adopt thermodynamic minima. Nanoscale systems: multiporphyrin complexes, semiconductor quantum dots and nanocomposites on their basis (dimension ≤100 nm), manifestation of quantum size effects
    32. 32. Scientific-Research Laboratory of Applied Physics and Informatics Realized Self-Assembly (Examples of Our Results) Model Light Harvesting Complexes (Energy transfer via localized exciton) Energy/Electron Transfer Systems (Possible applications in light collection and photovoltaics Eduard I. Zenkevich, Christian von Borczyskowski. Photoinduced relaxation processes in self-assembled nanostructures: multiporphyrin complexes and composites “CdSе/ZnS quantum dot-porphyrin”. Chapter In: Book “Multiporphyrin Arrays: Fundamentals and Applications” (D. Kim, Ed., Yonsei University, Seoul, Korea) Pan Stanford Publishing Pte. Ltd., Singapore, 2012. Chapter 5, P. 217-288. PET Long-Distant Electron Transfer via Superexchange Mechanism (Modelling of reaction center in Photosynthesis) (1 Dimer*...Lig) (Dimer...1 Lig*) 1 (Dimer+ ...Lig- ) k6 S0 k2 k5 (Dimer...3 Lig*) 3 (Dimer+ ...Lig- ) k9k1 S1 S1 k7 k8 K10 k34 k11 T1 CT Electronic Excitation Relaxation Pathways
    33. 33. Scientific-Research Laboratory of Applied Physics and Informatics Results of Joint Belarus-South Korea Scienfic Cooperation Prof. Bong Hyun Chung Dr. Jin Young Jeong Spectroscopy of Potential Photosensitizers for Synglet Oxygen Generation Fullerenes E.I. Zenkevich, C. von Borczyskowski, Bong Hyun Chung, and Jin Young Jeong. Self-Assembly Principles in Nanoscale and Applications in Nanosensing and PDT (Bulk Measurements and Single Objects Detection). - Book of Abstracts of the 5th International Conference on sensors AsiaSense 2011 “Sensors and Beyond” (Jeju, Korea, Oct. 23-26, 2011) WeP101. E.I. Zenkevich, T.A. Ginko, Bong Hyun Chung, and Jin Young Jeong. PDT with MB in Stomach Treatment. J. Photochem.Photobiol. (2013, sent) Methylene Blue H 3600 3200 2800 2400 302010 x10 3 -200 -100 0 100 Coefficientvalues± onestandarddeviation A = 1.6448± 0.0361 b1 = 0.00071251± 2.97e-05 b2 = 0.00027451± 8.28e-06 C = 2325.5± 2.84 PDT Stomach Treatment
    34. 34. Scientific-Research Laboratory of Applied Physics and Informatics CdSe ZnS N N H N N N H N “ QD-Porphyrin” Bioconjugates for PDT Singlet Oxygen generation Tumor Killer Tumor Photodynamic therapy of cancer Electron tunneling Energy Transfer ТОPO H2P Eduard I. Zenkevich, Christian W. von Borczyskowski. Formation Principles and Excited States Relaxation in Self- Assembled Complexes: Multiporphyrin Arrays and “Semiconductor CdSe/ZnS Quantum Dot-Porphyrin” Nanocomposites. - in Handbook of Porphyrin Science with Application to Chemistry, Physics, Materials Science, Engineering, Biology and Medicine. Volume 22 – Biophysical and Physicochemical Studies of Tetrapyrroles (Kadish, K., Smith, K. M. and Guilard, R., eds). World Scientific Publishing Co. Pte. Ltd.: Singapore 596224, 2012, Chapter 104, p. 68-159. E.I. Zenkevich, E.I. Sagun, V.N. Knyukshto, A.S. Stasheuski, V.A. Galievsky, A.P. Stupak, T. Blaudeck, C. von Borczyskowski. “Quantitative Analysis of Singlet Oxygen (1O2) Generation via Energy Transfer in Bioconjugates Based on Semiconductor Quantum Dots and Porphyrin Ligands” – Journal of Physical Chemistry C. (2011) Vol.115, p.21535-21545. A τ, ns
    35. 35. The main areas of activity are: • Development and production of tensometric weighing systems and controllers, different types of electronic scales. • Automation of technological production processes based on weighing such as asphalt and concrete plants, mixed fodder and glass factories. Belarusian National Technical University, Faculty of Information Technologies and Robotics SCIENCE AND RESEARCH INNOVATION LABORATORY OF PRODUCTION AUTOMATION
    36. 36. The Laboratory has scientific and production units such as: • experimental-industrial section; • load cells production section; • machining section; • electrical mounting section; • testing section equipped with environmental cameras and force testing machines. Science and Research Innovation Laboratory of Production Automation
    37. 37. Electronic scales VE-15 Science and Research Innovation Laboratory of Production Automation
    38. 38. Electronic scales VE-150 Science and Research Innovation Laboratory of Production Automation
    39. 39. One of the Laboratory’s main areas of activity is the automation of production lines based on weigh batching. More than 200 of asphalt and concrete mixing plants were automated during last 15 years. The Laboratory’s specialists examine the existing equipment, design structural layouts, create control systems, data bases and visualisation. Science and Research Innovation Laboratory of Production Automation
    40. 40. Structural layout of an upgraded asphalt mixing plant Science and Research Innovation Laboratory of Production Automation
    41. 41. Structural layout of an upgraded asphalt mixing plant Science and Research Innovation Laboratory of Production Automation
    42. 42. Single point load cell DVT-6 (15, 30) Science and Research Innovation Laboratory of Production Automation
    43. 43. S-beam load cell DVT-100S (200S) Science and Research Innovation Laboratory of Production Automation
    44. 44. Tension load cell DVT-500 (1000) Science and Research Innovation Laboratory of Production Automation
    45. 45. Tensometric systems controller KTU-2 Science and Research Innovation Laboratory of Production Automation
    46. 46. Operator’s controller Science and Research Innovation Laboratory of Production Automation
    47. 47. Operator’s console Science and Research Innovation Laboratory of Production Automation
    48. 48. Control room of an upgraded concrete mixing plant Science and Research Innovation Laboratory of Production Automation
    49. 49. Control cabinet of an upgraded concrete mixing plant Science and Research Innovation Laboratory of Production Automation
    50. 50. Water measuring hopper Science and Research Innovation Laboratory of Production Automation
    51. 51. Inert aggregates measuring hopper Science and Research Innovation Laboratory of Production Automation
    52. 52. Chemical additives measuring hopper Science and Research Innovation Laboratory of Production Automation
    53. 53. An upgraded line of a concrete mixing plant Science and Research Innovation Laboratory of Production Automation
    54. 54. Cellulose measuring hopper Science and Research Innovation Laboratory of Production Automation
    55. 55. A screenshot of the control software for concrete mixing plants Science and Research Innovation Laboratory of Production Automation
    56. 56. Thank you for attention! Belarusian National Technical University, Faculty of Information Technologies and Robotics

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