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1. dia

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Title: 1. dia


1
(v1.0 2013. 10. 15.)
2
Introduction
3
Hungary in Central Europe, surroundings of Gyor
3 capitals in 120 km Budapest, Wien and
Bratislava (Pozsony)
4
Brief history of Gyor
300 Arrabona Roman military camp and city
700 Hungarians arrive to Gyor 1000- County and
bishops seat 1300- Commerce and handwork
industry 1700- Baroque age, rich merchants and
craftsmen 1870- Rapid industrial development
(food, textile) 1950- Extensive industrial
development (cars, buses, ..)
Ányos Jedlik (1800-1895) OSB monk and
priest physicist, inventor, teacher, ... unsung
father of electric motor and dynamo
5
Brief history of the University
Historical predecessors 18th century
Loyolite Academy 18-19th century Royal
Academy Direct predecessor Engineering College
(Fachhochschule) 1968 Foundation of the
College of Transport and Telecommunication
Engineering 1980- Extending the engineering
profile 1993 Declaration of the University
Project 1994- New profiles economics, health
and social care, music, law Széchenyi István
University 2002 Foundation of Széchenyi
István University 2005- Changing education
system to BSc-MSc-PhD according to unified EU
Bologna-process
6
Overview of the University
Faculties and institutes Faculty of Engineering
Sciences Faculty of Law and Political
Sciences Faculty of Economics Institute of
Health and Social Sciences Institute of Music Art
Total number of students 7000-8000 in full time
courses 3000-5000 in correspodence and
distant learning courses 60 of students
belong to the Faculty of Engineering Sciences
7
Aims To guarantee the necessary human resources
to meet the technological demands of the social
and economic development (engineering,
information specialist, engineer-teacher) as well
as to provide the indispensable background  of
researchdevelopment and technical innovation in
Gyor and in the Northwest of Transdanubian
region. társadalmi-gazdasági fejlodéséhez
szükséges muszaki (mérnöki), informatikus és
muszaki tanár szakembergárdát, valamint
kutatás-fejlesztési hátteret és.
8
Departments of the Faculty (21)
Department of Applied Mechanics AUDI Hungaria
Vehicle Engineering Department
Group Department of Materials Science
and Technology Department of Vehicle
Manufacturing Department of Internal
Combustion Engines Department of Whole Vehicle
Development Department of Automation Department
of Architecture and Building Structures
Department of Urban Planning and Architectural
History Department of Transport Department of
Architectural Design
Department of Physics and Chemistry Department of
Environmental Engineering Department of
Transportation Infrastructure Department of
Road and Rail Vehicles Department of Logistics
and Forwarding Department of Mechatronics
and Machine Design Department of Mathematics
and Computational Sciences Centre of Teacher
Training Department of Structural
and Geotechnical Engineering Department of
Information Technology Department of
Telecommunications
9
Faculty staff Teaching staff 230
persons Other employee 90 persons Number of
full time students 5 286 Number of
correspondence and E-learning-students
2 287 Total number of students 7
575 The Faculty of Engineering Sciences is the
biggest engineering (and information technology)
faculty in Hungary.
10
New hall
11
New library
12
Renewed buildings
Concert hall
Black Box studio building for architect
students and teachers
13
Teaching
14
Courses
Mechanical Engineering BSc, MSc Mechatronics
Engineering BSc, MSc Vehicle Engineering BSc,
MSc
Electrical Engineering BSc, MSc Information
Technology BSc, MSc Inf. Techn. in Economics
BSc, MSc
Vocational Technical Instructor BSc Engineering
Teacher MA Engineering Manager BSc, MSc
Logistics Engineering BSc, MSc Transport
Engineering BSc, MSc
Civil Engineering Bsc, MSc Municipal
Engineering MSc Environmental Engineering BSc
Architecture 5 year, undivided Architectural
Engineering BSc Structure Designer
Architect MSc
  • Postgradual Courses (M.Phil.)
  • Manager for Logistics and Transportation
  • Transportation Engineering Expert
  • Railway Operation Expert
  • Doctoral School (PhD)
  • Civil Engineering
  • Information technology
  • Transportation

15
Number of students in different type of courses
16
Transition from traditional to BSc/MSc system
17
Multidisciplinary Engineering Doctoral School
Start September 2005 Statistical data
(2012) total number of admitted students
129 51 absolutories (180 credit units)
44 processes started
12 PhD degrees Head of Doctoral School
László Keviczky, professor, member of
Hungarian Academy of Sciences. Main
disciplines Civil Engineering László
Gáspár, professor, DSc. Information Technology
László T. Kóczy, professor, DSc.
Transportation Péter Várlaki, professor,
DSc.
18
Multidisciplinary nature of the Doctoral School
Multidisciplinary nature Fits to the past of
the Faculty different diciplines always worked
together. Most of the research topics belong to
two or more main disciplines. Common basic
subjects. Optional subjects from other
disciplines 30 of optional subjects.
Main disciplines of research topics
Statistics of credits
19
Some Selected Research Topic
20
Fast Simulation and Optimization
  • Government and EU supported research project.
  • Total support 294 MFt (approx. 1,1 million
    Euros)
  • Research leader
  • Tamás Terlaky (Lehigh University, PA)
  • Research program director
  • Zoltán Horváth (Széchenyi István
    University)
  • Basic and aimed basic research on
  • Numerical methods for PDEs
  • Parallel computing, esp. on hardware
    accelerators
  • Optimization Global Optimization
  • Optimization Scheduling
  • Optimization Computational Intelligence
  • Hardware accelerators
  • Method and software development for very fast
    solution of PDE-s on GPU, FPGA hardware
  • Parallelization of global optimization problems

21
High Performance Computing
Penge Hewlett Packard C3000 Blade Server 896
cores 2 GB RAM/core CPUsIntel Xeon CPU
E5450_at_3.00GHz RAM 192GB Infiniband DDR Storage
6x 146GB ClearSpeed Advance e720 Board
Memo IBM SMP server 64 cores CPUs 8x Intel Xeon
X7560 _at_2.27GHz (8 cores) RAM 1 TB Infiniband
QDR Storage 24x 1TB SATA Hot-swap
Software RedHat Linux Intel Cluster Studio 2011
for Linux Intel Composer XE, Intel Trace
Analyzer and Collector, Intel MPI Library,
Intel MPI Benchmarks Intel C Studio XE 2011
for Windows Linux Intel C Composer XE,
Intel VTune Amplifier XE, Intel Inspector XE
Plexi IBM iDataPlex server 120 CPU server
4 GPU server. 256 CPU cores 12 Tesla GPUs
CPUs Intel Xeon X5650 _at_2.67GHz GPUs 2x
nVidia Tesla M2050 (448 cores) 4x nVidia
Tesla M2090 (512 cores) RAM 1092 GB (CPU) 36
GB (GPU) Infiniband QDR Storage 24x 1TB SATA
Hot-swap
22
The SZENERGY Team
  • Collaboratoin of students and teachers to
    construnct alternative vehicles.
  • Start 2007.
  • Shell Eco-marathon
  • Urban Concept/Solar category
  • First place in 2008, 2009, 2010
  • 2010 Positive energy balance

http//szenergy.sze.hu
23
Application of FEM in electrical engineering
  • Measurement methods and computer simulations for
  • nonlinear behaviour of magnetic materials.
  • Hysteresis characteristics, nonlinearity
  • Magnetic bearings, magnetic material
    investigation
  • Motors and drives
  • Parallel computing

24
Research on applied nuclear physics and chemistry
  • Main topics
  • Investigation of radionuclide uptake and
  • accumulation of plant samples by radioindicators
  • (85Sr, 60Co, 65Zn, 109Cd) using autoradiography
  • and gamma spectrometry.
  • Comprehensive investigation of the radioactive
    contamination-decontamination and corrosion
    phenomena in nuclear power plants.
  • Fusion plasma experimental investigations,signal
    analysis (with Hungarian Fusion Association,
    TOKAMAK devices in Prague and Lausanne)
  • Patient dose minimising in X-ray diagnostics
  • 4 researchers
  • 30 refereed publications in English
  • in 5 years
  • Joint works with Hungarian and
  • European institutes from 5 countries.

25
FEM modeling of internal combustion engines and
vehicle structures
  • FEM modeling of components and complex parts of
    engines
  • Determination of strains and stresses in engine
    and vehicle components
  • Vibration analysis of engine and vehicle parts
  • Determination of natural frequencies and natural
    modes
  • Designing the optimum shape of the machine parts
  • Approximately 6-7 active researchers
  • 20 refered papers per year
  • Organisation of workshops
  • Industrial trainings (AUDI Hungaria)

26
Acta Technica Jaurinensis
27
Laboratories
28
Laboratories
  • gt60 laboratories (most of them connected to the
    main building)
  • engineering student laboratories
  • computer rooms
  • special laboratories for RD
  • Selected RD laboratories
  • Non-destructive material testing
  • Plastic technology
  • Engine testing (AUDI)
  • Manufacturing processes, -organisation, and
    logistics
  • Radio frequency test laboratory
  • Robotics
  • Transportation systems
  • Supercomputing center for simulations

29
Radio Frequency Test Laboratory
  • Prepared for conformity tests of radio
    equipment, like
  • Analogue radio equipment,
  • Short Range Devices
  • WLAN, Bluetooth devices, etc.
  • Accredited for 10 harmonized European standards
  • Test site large Fully Anechoic Chamber
  • Frequency band of tests from 30 MHz up to 40
    GHz
  • Laboratory activity
  • Conformity tests for CE mark
  • Development support
  • Research support
  • Training for students

30
Audio and video laboratory
  • Research areas
  • human spatial hearing and localization
  • virtual reality applications and headphone
    playback techniques
  • acoustic measurements, dummy-head technique
    transmission of acoustic information
  • GUIB Development of user interface for blind
    persons
  • sound studio technologies

31
Research on Intelligent Robots
  • One of the latest and most progressive research
    topic.
  • Main subjects
  • Intelligent control of autonomous mobile robots
  • Robot cooperation by fuzzy communication
  • Intelligent sensor fusion and knowledge share
  • Innovative industrial robot techniques
  • New Intelligent Robots Lab from 2009.

32
Laboratory of intelligent control systems
  • Research fields
  • Improve of autonome and DCS systems
  • Application of field buses (Profibus, Interbus,
    Can-bus, Profinet, etc.)
  • Safety and reliability of PLC control systems
  • Visualisation and SCADA systems
  • Artificial intelligence in PLC systems (Fuzzy
    control)
  • Special research works for the automotive
    industry
  • Embedded PLC Control System in
  • Automotive Seat Production Line

2. PLC Controlled Hydraulic Module Tester
33
Thank you for your attention!
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