Курсы английского
<<  Развитие коммуникативных умений и навыков старшеклассников на основе использования технологий личностно-ориентированного обучения на уроках иностранного языка Conditions for Divergence and Convergence in the Micro-Evolution of Language  >>
Centre of Excellence of the Integrated Research and Exploitation of
Centre of Excellence of the Integrated Research and Exploitation of
Centre of Excellence of the Integrated Research and Exploitation of
Centre of Excellence of the Integrated Research and Exploitation of
Basic Characteristics of the Project
Basic Characteristics of the Project
Laboratory of Intelligent Sensor and Communication technologies of an
Laboratory of Intelligent Sensor and Communication technologies of an
Picked results of research and development
Picked results of research and development
Picked results of research and development
Picked results of research and development
Partnerships
Partnerships
Partnerships
Partnerships
Partnerships
Partnerships
Laboratory of Automotive Electrotechnics
Laboratory of Automotive Electrotechnics
Laboratory of Automotive Electrotechnics
Laboratory of Automotive Electrotechnics
Fields of Industry Projects
Fields of Industry Projects
Fields of Industry Projects
Fields of Industry Projects
Activities in the field of automotive technology
Activities in the field of automotive technology
Support of student projects Self made electrical vehicles in Bosch
Support of student projects Self made electrical vehicles in Bosch
Support of student projects Self made electrical vehicles in Bosch
Support of student projects Self made electrical vehicles in Bosch
Support of student projects Self made electrical vehicles in Bosch
Support of student projects Self made electrical vehicles in Bosch
Support of student projects Self made electrical vehicles in Bosch
Support of student projects Self made electrical vehicles in Bosch
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Technological Laboratory for Integrated Research of Electro-physical
Selected Results of Research and Development
Selected Results of Research and Development
Selected Results of Research and Development
Selected Results of Research and Development
Selected Results of Research and Development
Selected Results of Research and Development
Laboratory for modification and testing of advanced materials
Laboratory for modification and testing of advanced materials
Laboratory for modification and testing of advanced materials
Laboratory for modification and testing of advanced materials
Modelling and measurement laboratory for automobile electronics -
Modelling and measurement laboratory for automobile electronics -
Modelling and measurement laboratory for automobile electronics -
Modelling and measurement laboratory for automobile electronics -
Modelling and measurement laboratory for automobile electronics -
Modelling and measurement laboratory for automobile electronics -
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
EMC Laboratory of Electronic Equipments and Biological Systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Influence of external fields on controlling and communication systems
Electromobiles and their interaction with electric power nets
Electromobiles and their interaction with electric power nets
Electromobiles and their interaction with electric power nets
Electromobiles and their interaction with electric power nets
EMC of biological systems
EMC of biological systems
EMC of biological systems
EMC of biological systems
Картинки из презентации «Centre of Excellence of the Integrated Research and Exploitation of the Progressive Materials and Technologies in the Area of Automotive Electronics» к уроку английского языка на тему «Курсы английского»

Автор: . Чтобы познакомиться с картинкой полного размера, нажмите на её эскиз. Чтобы можно было использовать все картинки для урока английского языка, скачайте бесплатно презентацию «Centre of Excellence of the Integrated Research and Exploitation of the Progressive Materials and Technologies in the Area of Automotive Electronics.ppt» со всеми картинками в zip-архиве размером 13360 КБ.

Centre of Excellence of the Integrated Research and Exploitation of the Progressive Materials and Technologies in the Area of Automotive Electronics

содержание презентации «Centre of Excellence of the Integrated Research and Exploitation of the Progressive Materials and Technologies in the Area of Automotive Electronics.ppt»
Сл Текст Сл Текст
1Centre of Excellence of the Integrated 21Integrated Research of Electro-physical
Research and Exploitation of the Properties of Progressive Materials. 1.
Progressive Materials and Technologies in Workplace of Technological Processes I.
the Area of Automotive Electronics. Development and production of thick films,
2Basic Characteristics of the Project. design of basics and realization of screen
Operation Program. Research end printing processes for production of
Development. Co-financed by. European Fund hybrid integrated circuits, including
of the Regional Development and State mounting of SMD components, multilayer
Budget of Slovak Republic. Priority Axis integrated structures based on LTCC and
2. Support of Research and Development. polymer thick film structures. Contacting,
Action 2.1. Support of Excellence trimming of resistors, substrates cutting
Workplaces of Research and Development and other necessary techniques, which
networks like pillars of regional depend on construction of the circuits.
development and support of over regional Deposition of layers – screen printing,
cooperation. Assumed Costs. 4 123 558,00.- various ways of stencil printing,
€. Number of Coworkers. 57. Coordinator. dispensing, measurement of rheology of
Prof. Dr.-Ing. Alena Pietrikov? Term of non-Newtonian liquids, lead-free solders
Solution. Term of Solution. Solution of and conductive adhesives.
activities and outputs: 09/2010 – 08/2013. 22Technological Laboratory for
Impacts of the project: 2018. Integrated Research of Electro-physical
3Goals of the Project. Goal of the Properties of Progressive Materials. 2.
Project. Development of CEV Progressive Workplace of Technological Processes II.
Materials and Intelligent Technologies of Production of multichip modules, cutting
Automotive Electronics for Complex of LTCC ceramic layers for multichip
Solution of Research Tasks Defined by the modules, 3D CNC milling and PCB drilling,
Strategic Demands. Specific Goal 1 of the PCB etching, immersion and reflow
Project. Centre of Excellence of soldering. 3D shaped module with
Integrated Research and Exploitation of integrated pressure sensor.
Progressive Materials and Technologies in 23Technological Laboratory for
the Area of Automotive Electronics. Integrated Research of Electro-physical
Specific Goal 2 of the Project. Support of Properties of Progressive Materials. 3.
Realization of Important Research and Workplace of Virtual Technological
Development Projects Solved in the Frame Laboratory and CAD - Design Systems: CAD
of the Centre. Specific Goal 3 of the designs of all types of structures and
Project. Slovak Network of Excellence elements with support of HIOCAD design
Workplaces for Integrated Research of software, (CAD – design system Altium
Progressive Materials and Technologies for Designer, CAD – design system HYDE).
Automotive Electronics. 24Technological Laboratory for
4CEIR and Exploitation of Progressive Integrated Research of Electro-physical
Materials and Technologies in the Area of Properties of Progressive Materials. 4.
Automotive Electronics. Laboratory of Workplace of Diagnostics and Thermal
Automotive Electrotechnics. Laboratory of Processes. Thermal processing for firing
Sensor and Communication Networks of Safe of thick films samples realized in
Automobile of the Future. Technological convection and programmable firing
Laboratory for Research of Progressive furnaces; solder paste reflow in reflow
Materials for Automotive Electronics. ovens for SMT. Reflow soldering in
Laboratory of EMC Electronic Devices and saturated vapors. Diagnostic tests and
Biological Systems. Laboratory for reliability tests – climatic chamber,
Modification and Testing of Properties of shock chamber.
Progressive Materials. Laboratory of 25Technological Laboratory for
Modeling and Measurement for Automotive Integrated Research of Electro-physical
Electronics. Properties of Progressive Materials. 5.
5Laboratory of Intelligent Sensor and Workplace of Optical Diagnostics and
Communication technologies of an Inspection of Electronic Structures.
Automobile. Guaranteeing Department: Microscopic analyses, optical inspection
Department of Electronics and Multimedia of joints, preparation of metallographic
Communications Head of Laboratory: doc. cross-sections, testing of mechanical
Ing. J?n Gamec, CSc. Fields of science properties, testing of transition
problems solved in CENTRE. resistance, contacting.
6Laboratory of Intelligent Sensor and 26Technological Laboratory for
Communication technologies of an Integrated Research of Electro-physical
Automobile. new optoelectronic methods of Properties of Progressive Materials. 6.
signal processing and transmission in Workplace of Measurement. The workplace is
distributed optical sensor networks (DOSN) aimed at measurement of electrical and
of future accident-proof vehicle, non-electrical parameters by using precise
application of optical correlator in measuring devices for general applications
distributed traffic sensor systems with support of tools like LabWin
(traffic control), optically powered software.
industrial sensor system of future 27Selected Results of Research and
accident-proof vehicle, intelligent sensor Development. Advanced Solder Materials for
systems for vehicle interior and exterior High Temperature application-HISOLD
monitoring with emphasis on UWB radar Financing: COST MP0602, COST, Duration:
sensors, monocular and binocular video 2008 – 2011, Coordinator: Prof. Dr.-Ing.
sensors, new digital signal processing Alena Pietrikov? Analysis and Design of
methods of an intelligent sensors, mobile Complex Methodology of Evaluation of Mount
communication of customer in an automobile Components Joints and Systems Based on
with emphasis on mobile access network for Lead-free Solders, Financing: VEGA Nr.
digital television based on LTE, WiMAX, 1/0108/09, Duration: 2009 – 2012,
WiFi and other modern network technologies Coordinator: Prof. Dr.- Ing. Alena
v mobile access networks, wireless MIMO Pietrikov? Progressive Materials and
technologies and reconfigurable wireless Construction Solutions for Technology of
network technologies (Intelligent Miniaturized Systems Integration,
Vehicular Ad Hoc Networks – InVANET, V2V) Financing: VEGA Nr. 1/0076/09 Duration:
. 2009 – 2011, Coordinator: Prof. Dr.- Ing.
7Picked results of research and Stanislav Slosar??k.
development. Development of digital signal 28Laboratory for modification and
processing methods for diagnostics of car testing of advanced materials.
engines and gearboxes (contract with Medav Guaranteeing department: Department of
GmbH, Germany). Development of Physics Head of the Laboratory: doc. RNDr.
psychoacoustic methods for diagnostics of Du?an Ol??k, CSc.
selected subsystems of cars and electrical 29Laboratory for modification and
drives (contract with Medav GmbH, testing of advanced materials. The
Germany). Development of glasses quality research areas focused to within the
monitoring system of welding robots Centre Modification of magnetically soft
(contract with Volkswagen Slovakia a.s.). ferromagnetic materials. Study of electric
Development of speech car corpus including and magnetic properties of these materials
phonetic and orthographic transcription aimed at their potential applications
for voice control systems (contract with mainly in sensor technology. Modification
?koda Auto MB a.s. Czech Republic). of already known polymeric materials in
8Partnerships. Centre of Excellence II, order to obtain materials with new
Hamburg University of Technology (TUHH), utilizable properties. Study of
Prof. Hermann Rohling -UWB, Ilmenau relationships between structure and
University of Technology , Dr. Rudolf properties of polymeric materials of
Zet?k - UWB, 2J s.r.o. (Bardejov)– company interest. Development of non-commercial
oriented on development and manufacturing experimental techniques for modification
of of antennae for the use in GSM, GPRS, and testing of materials under study.
GPS, Galileo, Glonass and Telematic 30Relevant results of research and
applications (automotive too)... development. Support for the completion of
Development of GPS Patch antenna. building of the nuclear magnetic resonance
9Laboratory of Automotive laboratory (FCHPT STU Bratislava) ,
Electrotechnics. Responsible department: funding: Project APVV No.: 2003SP200280203
Department of Electrical Engineering and Duration: 2010, Coordinator: doc. RNDr.
Mechatronics (KEM TUKE) Head of Du?an Ol??k, CSc. Anomalous effects in the
Laboratory: doc. Ing. Michal Girman, CSc. rheology of polymeric liquids Funding: SGA
Main research fields solved in Centrum. Project No. 1/0646/09, Duration: 2009 –
10Laboratory of Automotive 2011, Coordinator: prof. RNDr. Vladim?r
Electrotechnics. Design and optimization Lis?, DrSc. Structure of amorphous
of electrical motors with focus on ferromagnetic materials and their selected
efficiency by new methods and applying CAD magnetic properties Funding: SGA Project
technologies. Design of compact drive No. 1/0136/10, Duration: 2010 - 2012
units for electrical vehicles: Coordinator: doc. RNDr. J?n Ziman, CSc.
optimization of power converters and Potential cooperation with industrial
motors design in term of thermal companies: Chemosvit, a.s.,Svit
endurance, efficiency and minimal weight. Development of polymeric materials for
Design of control for compact drives and automotive industry.
their supply systems for electrical 31Laboratory for modification and
vehicles applying new control and testing of advanced materials. Cooperation
artificial intelligence methods and with research institutions in Slovakia and
communication busses in vehicle. The abroad Cooperation with research
renewable energy sources (fuel cells) will institutes and laboratories within the CE
be applied also in vehicle supply system. laboratory network Incorporation into
Proposal for new testing methods of activities at the TU of Kosice within
electrical vehicles drive systems and building of Technicom. Laboratories:
their supply components in laboratory by Laboratory of magnetic measurements
Hardware in the Loop technology. Design of (Aplications: Measurement of quasistatic
autonomous driven vehicle. and dynamic magnetization curves,
11Fields of Industry Projects. High measurement of the velocity of 180o domain
frequency soft switching DC-DC converters walls in the samples with axial or
for voltage and current sources Power circular easy axis of magnetization,
converters for renewable energy sources measurement of longitudinal
Power converters for automotive technique magnetoresistance and magnetoimpedance (at
Battery management systems Hardware in the the frequencies up to 1MHz) Laboratory of
Loop technologies for mechatronic dynamic nuclear magnetic resonance – Laboratory is
systems and power converters. Testers of equipped with the multinuclear NMR
circuit breakers magnetic (left) and spectrometer for solids (Applications:
thermal release (right) made at KEM TUKE. Materials of organic and inorganic origin,
12Fundamental research project solved biomaterials, amorphous and crystalline
during last 10 years in the field of Power materials, materials in the form of
Electronics. High-Frequency Soft-Switching powder, fibres, granules and bulk
DC-DC Power Converters. Project VEGA materials).
1/6110/99, 1999-2001, (prof. Dudrik). 32Modelling and measurement laboratory
Voltage and Current Power Supplies with for automobile electronics. Responsible
High Efficiency and Reduced workplace: Department of theoretical
Electromagnetic Interference. Project VEGA electrical engineering and electrical
1/9025/02, 2002–2004, (prof. Dudrik). measurement Head of laboratory: prof. Ing.
Efficient utilisation of renewable energy Dobroslav Kov??, PhD. Fields of scientific
sources using modern power electronics problems solved by CENTRE:
converters and special electrical 33Modelling and measurement laboratory
machines. Project VEGA 1/2178/05, for automobile electronics. computer
2005–2007, (prof. Dudrik). Research of New simulation, analysis and mesurement of
Generation High Frequency Soft Switching automobile electronic circuits,
Converters. Project APVV 0095-07 description, modelling, measurement and
(2008-2010). (prof. Dudrik). Research of optimization of automobile parameters and
power semiconductor converters for its components from EMC point of view,
industrial and electric utility expert and telemetric parameter
applications. Project VEGA 1/0099/09 measurement of automobile production and
(2009-2011). (prof. Dudrik). Research of operation, proposal, implementation and
Power Semiconductor Converters with High maintenance of modern and effective
Efficiency of Electric Power Conversion. diagnostic and measurement systems and
Project APVV 0185-10 (2011-2014). (prof. methods. using computer simulation for
Dudrik). Centre of excellence of power investigation of automobile?s EMC objects
electronics systems and materials for measurement of automobile?s EMC as well as
their components. Code ITMS: 26220120003, its parts and manufacturing devices design
(05/2009 - 04/2011). The project is funded of optimal technical and technological
by European Community, ERDF – European solutions development of new method for
regional development fund. Project EMC disturbance elimination. simulations
contractor: University of ?ilina, of electrical power as well as non-power
co-operation FEI TU Ko?ice, (prof. circuits simulations of electromagnetic
Dudrik). fields in object?s vicinity multiphysics
13Applied research projects. Test application problems simulation
equipments for controlling and setting the measurement and evaluation of operating
circuit breaker thermal and magnetic parameters development of new measurement
releases. Project APVV-20-P03105, FEI-TU systems and methods automobile?s energy
Ko?ice, 2005 - 2007 (prof. Dudrik). management.
Implementation of new technology into the 34Modelling and measurement laboratory
production of residual current circuit for automobile electronics - Cooperation
breakers with overcurrent protection. with companies. Maintenance, diagnostics
Project APVV-99-P04705, SEZ Krompachy and measurement field: Electronic FASE
a.s., 2005 -2007 (co-operation FEI-TU control tester developed for Volkswagen,
Ko?ice - prof. Dudrik ). Research and a.s. Slovakia. Car?s bodywork degaussing
development of new generation electric equipment designed and develo- ped for
linear drives with high resolution of SAAB, Magna Styr, Graz, Austria. Measuring
position. Project APVV-99-031205, EVP?, current transformer designed for ZPA
Nov? Dubnica, 2006 – 2008 (co-operation K?i??k, a.s.. 2 patents submitted.
FEI-TU Ko?ice - prof. Dudrik ). New Telemetry field: Solving of automobile?s
Circuit Breaker up to 63 A and Equipments accumulator condition measurement problem,
for Breaker Hourly Tests. Project APVV Patent submitted.
0287-07 (2008-2010). SEZ Krompachy, 35EMC Laboratory of Electronic
(co-operation FEI-TU Ko?ice - prof. Dudrik Equipments and Biological Systems.
). Guaranteeing department: Department of
14Patents. Dudrik, J.: Circuits for Electric Power Engineering Head of
Decreasing of the Switching Losses in laboratory: prof. Ing. Roman Cimbala, PhD.
Extreme Conditions of the Converter. Fields of scientific problems solved
Slovak patent No. 283721, 2003 Dudrik, J.: within the frame of CENTRE.
Auxiliary Circuit for Controlled Start of 36EMC Laboratory of Electronic
the Source. Slovak patent No. 287189, Equipments and Biological Systems.
2010. Dudrik, J., Lacko, M.: Research in the areas of diagnostics,
Non-Dissipative Turn-of Snubber for testing and influence of electronic
Converter. Slovak patent No. 287292 , 2010 equipments in aspects of electromagnetic
Dudrik, J.: Auxiliary Circuits for compatibility with focus on technical
Achievement of Zero-Current Switching in devices and biological systems. Transfer
PWM DC-DC Converters. Slovak pending of EMC knowledge research and development,
patent, No.0144-2007 Dudrik, J., Ru??in, design and production of components,
V., Bodor, M.: Non-Dissipative Turn-of systems and electronic modules for
Snubber in DC-DC Converter with Controlled utilization in the electrical engineer and
Output Rectifier. Slovak pending patent, other related scientific branches.
No. 00033-2008. 37Influence of external fields on
15Activities in the field of automotive controlling and communication systems.
technology. Laboratory of Automotive Radiation of EM fields. Sensitivity on EM
Electronics (LAE) founded in 2004. LAE is fields. Composite material. Radar.
a joint project of TUKE and Volkswagen 38Electromobiles and their interaction
Slovakia with the main goals as follows: with electric power nets. Automatic net
Education quality improving in the field controlling at the level of consumption
of automotive electronics and and generation. Smart grids, Smart
electrotechnics Material and technical metering.
basis for orientation research in the 39EMC of biological systems. It deals
field of automotive electronics Support with overall „electromagnetic
for student projects and activities. backgrounds" of living environment,
Laboratory of Automotive Electronics at permissible levels of disturbing and
FEI TUKE. useful electromagnetic signals (natural
16Basic equipment of LAE. MasterBook VW and artificial) and their influence on
Polo, ?koda Superb Bus analyzer for CAN, living organisms. Research is oriented in
LIN, FlexRay CANoe (Vector) Diagnostic this areas: dielectric properties of live
software for vehicles of VW group Car substances, individual effects on
dynamics simulator CarSim including molecular, tissue, organ and systemic
real-time version CarSim RT, equipped with levels, physiological, psycho - pathogenic
sensors of vehicle environment (Mechanical and genetic effects, quantization in
Simulation) and interfaces for real car dosimetry and radiometry, therapeutic and
ECU Hardware in the Loop (HIL) simulator diagnostic applications. Biological object
RT-Lab (Opal-RT) ?koda Octavia II, ?koda replying manifests as active adaptation
Superb, Kia ceed Laboratory measuring algorithm mechanisms, which have chances
instruments, oscilloscopes Fuel cells and abilities of compensation effects
Software tools for optimization of induced by external activity. This
electrical motor design for compensation is able to act in the range
electromobiles. of permissible physiological change, or in
17Support of student projects Self made pathological way . It not is easy to
electrical vehicles in Bosch Electromobile determine accurate boundary between them.
Race 2010 and 2011 (Miskolc, HU). 40EMC of biological systems. Influence
18Technological Laboratory for of non – ionising radiation on morphology
Integrated Research of Electro-physical changes red corpuscule has been monitored
Properties of Progressive Materials. on the department. It has been determined
Certificatory Workplace: Department of bucking of red corpuspule (erythrocyte)
Technologies in Electronics Head of the after defined time it the front of CRT
Laboratory: Prof. Dr.- Ing. Juraj Bansk? computer display as well as by the
The scientific problems solved in the measurement at the high voltage
frame of the CENTRE. distribution board. Examples are presented
19Technological Laboratory for in the following figures: checking samples
Integrated Research of Electro-physical after 12 hours – erythrocytes – shape as
Properties of Progressive Materials. Micro rotating ellipsoid. samples of blood after
and nanostructure analyses of 12 hours exposure in the front of CRT
electro-physical properties of materials computer display – bucking has been
applied in automotive electronics. created on monitored samples – creation of
Reliability and lifetime of materials, acanthocytes.
components and systems applied in 41EMC Laboratory of Electronic
automotive electronics. Technologies of Equipments and Biological Systems.
screen printing for production of very Laboratory of electromagnetic
soft thick film structures and their compatibility Laboratory of high voltage
application in mount technologies for technique Laboratory of discharge and
automotive electronics. CAD design ionizing activity Laboratory of
techniques for production of PCB, HIO and diagnostics Industrial partners:
multichip modules for automotive East-Slovak Power Engineering, inc. Ko?ice
electronics. Integrated virtual Research Institute of Nuclear Power
technological laboratory for online Plants, inc. Trnava Enel, inc. Bratislava
education in the area of materials and RWE Munich Institute of Experimental
technologies in automotive electronics. Physics, Slovak Academy of Science, Ko?ice
20Technological Laboratory for Parasitological Institute, Slovak Academy
Integrated Research of Electro-physical of Science, Ko?ice Centre of excelences of
Properties of Progressive Materials. living being and human ecology, Pre?ov.
21Technological Laboratory for 42Thank you for your attention!
Centre of Excellence of the Integrated Research and Exploitation of the Progressive Materials and Technologies in the Area of Automotive Electronics.ppt
http://900igr.net/kartinka/anglijskij-jazyk/centre-of-excellence-of-the-integrated-research-and-exploitation-of-the-progressive-materials-and-technologies-in-the-area-of-automotive-electronics-239004.html
cсылка на страницу

Centre of Excellence of the Integrated Research and Exploitation of the Progressive Materials and Technologies in the Area of Automotive Electronics

другие презентации на тему «Centre of Excellence of the Integrated Research and Exploitation of the Progressive Materials and Technologies in the Area of Automotive Electronics»

«British Academic Centre» - По ключевому словосочетанию «Курсы английского языка в Екатеринбурге». It’s time to speak English. Исследования. Увеличение числа запросов в 2010 г. по отношению к 2009 г. более чем на 30%. Куда вложить деньги? Центральный офис. Необходимые инвестиции и срок окупаемости. Наше предложение. В современной России спрос на изучение «живого» языка многократно превышает предложение.

«The green movement» - The main objective — to achieve the decision of global environmental problems, including by attraction to them of attention of the public and the authorities. Management of each such branch in which head there is a chief executive, carries out national board. One of the largest victories гринписовцев in the given campaign can name refusal of flooding of an oil platform brent spar as it contained many toxic substances.

«Женщина the woman» - Женский интеллект. Муж - голова, жена- шея; куда хочу- туда верчу. Chicken’s mind- Куриные мозги. Баба слезами беде помогает. От нашего ребра нам не ждать добра; Оценочная структура лексической единицы “женщина”. Бабий язык, куда ни завались, достанет. Пословицы. A good wife makes a good husband. « Der mann»- нем.

«The english-speaking countries» - Great Britain. USA. Disneyland. Scotland. Australia. The English-speaking countries.

«The animals» - SEA-HORSE. LION. BOBCAT. SNAKE. ZEBRA. DOLPHIN. WHALE. SCORPIO. The animals which live in the rainforest and tropics. FISH. KANGAROO. LIZARD. GRIFFIN. STARFISH. REINDEER. The animals which live in Australia. GORILLA. The animals which live in the forest. BEAR. HIPPO. BISON. The animals which live in the desert.

«Курсы английского Success English» - Взаимодействие с носителями языка. Быстрое изучение английского языка. Модуль первый. Описание курса. Разговорный английский язык. Сертификаты Success English. Особенности курса Success English. Модуль четвертый. Корпоративный английский. Модуль третий. Полученные знания, подтверждаются фирменными Сертификатами.

Курсы английского

25 презентаций о курсах английского
Урок

Английский язык

29 тем
Картинки
900igr.net > Презентации по английскому языку > Курсы английского > Centre of Excellence of the Integrated Research and Exploitation of the Progressive Materials and Technologies in the Area of Automotive Electronics