Dean`s Address - Politechnika Poznańska

Dean`s Address - Politechnika Poznańska

Faculty of Electronics & Telecommunications
Research and Development
2009-2013
Mini-Guide
for Academics
and Industry
Dean’s Address
I have the honor to present you with a guide to research and development activities of the
Faculty of Electronics and Telecommunications at the Poznan University of Technology.
The Poznan University of Technology (PUT) is one of the leading academic institutions
and scientific centers in Poland. Its history reaches back to 1919. Currently, the university
educates above 20,000 students at ten faculties employing over 1,000 academic staff members.
The Faculty of Electronics and Telecommunications though being one of the youngest units
(established in 2006), has had a nearby 40-year tradition since 1974, when the Institute of
Electronics was founded. Currently, the Faculty is considered one of the leading centers of research
and education in electronics and telecommunications in Poland, however, its impact certainly
extends beyond the country. The staff members and research teams perform nationally funded
research projects and cooperate within international research programs, e.g. funded by the
European Union. An example of such activities is the participation in the EU Framework projects such as NEWCOM
(Network of Excellence in Wireless Communications), WINNER (Wireless World Initiative New Radio), BONE
(Building the future Optical Network in Europe), METIS (Mobile communications Enablers for Twenty-twenty (2020)
Information Society), a number of COST actions and several other bilateral initiatives.
The teams of the Faculty of Electronics and Telecommunications publish papers in world-leading journals
and present them at the best international conferences, such as IEEE ICC, GLOBECOM, VTC, PIMRC, Picture Coding
Symposia. They also cooperate with many companies such as Mentor Graphics, Samsung Electronics, Mitsubishi
Electric, Nokia Solutions and Networks, Telewizja Polska, Huawei and communication network operators (e.g. Orange).
We are proud of our devices developed for network synchronization, video codec proposals highly evaluated by MPEG
fora, new developments in 3D and multi-view television and monographs and textbooks published by renown publishers.
As an educational institution, we offer BSc and MSc studies in Electronics and Telecommunications, as well as PhD
program in Telecommunications. We have been offering 3- and 4-semester MSc programs in E&T in English for several
years. Since 2014, we will also offer BSc studies in English.
I encourage you, Dear Reader, to learn about our research areas, evaluate our competence, scientific potential and
available facilities for possible cooperation within science and education. We also hope that our prospective international
students will obtain knowledge about the scientific interests and competences of the faculty staff members, as well as
possible topics for future diploma theses in the fascinating fields of electronics and telecommunications.
Professor Krzysztof Wesołowski, PhD
Dean of the Faculty of Electronics and Telecommunications
Poznań, September 2013
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Doctorate Honoris Causa for Professor Janusz Rajski
On May 23rd, 2013 Professor Janusz Rajski of Mentor Graphics
Corporation, Wilsonville, OR, USA, received the honorary doctorate
(honoris causa – for the sake of the honor) from the Poznan University of
Technology. The doctorate diploma has been awarded by the Rector and
Senate of the university with the following citation: "for tremendous
contributions to digital circuits theory and international collaboration
between academia and semiconductor industry". This degree has been
conferred not only to honor Prof. Rajski's professional contributions, but
also to recognize a long and very fruitful collaboration between Mentor
Graphics and the Faculty of Electronics and Telecommunications whose
members nominated Prof. Rajski for this prestigious academic degree.
After receiving MSc and PhD degrees in the electrical engineering from the Technical
University of Gdansk and the Poznan University of Technology, respectively, Prof. Rajski has been
Canada and US resident for almost 30 years. In 2003 the President of Poland awarded him the title
of Professor of Sciences for his fundamental contributions in the area of design and test of digital
circuits and systems.
Janusz Rajski is currently a chief scientist and a director of DFT engineering at Mentor Graphics
Corporation – a world leader in electronic hardware and software design solutions. Following
Prof. Rajski's initiative, Mentor Graphics has founded its research and development division in
Poznań.
Prof. Rajski has published over 200 technical papers and holds near 80 US and international
patents in the area of design for test. He is the principal inventor of the Embedded Deterministic
Test (EDT) technology. Mentor Graphics commercialized EDT with the introduction of Tessent
TestKompress™ – the first on-chip test compression product on the market. The unique test data
compression offered by EDT enables a significant cost reductions, and, at the same time, offers the
high quality of testing procedures.
Janusz Rajski received a number of awards, including the IEEE Circuits and Systems Society
Donald O. Pederson Outstanding Paper Awards (1993, 2006) for papers published in the IEEE
Transactions on CAD, IEEE VLSI Test Symposium (1995, 1998) best paper awards for papers on
embedded test, and IEEE International Test Conference (1999, 2004) Honorable Mention Awards
for papers on logic BIST and EDT. He is the Fellow of the IEEE.
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Dean’s
office
The Faculty of Electronics
and Telecommunications
Teaching Offer
STUDYING IN ENGLISH
Degree Programmes – Full Time
BSc programme in Electronics and Telecommunications (E&T)
7-semester programme - dedicated to foreign and Polish students holding school
diploma entitling to enter university (from October 2014)
MSc programme in Electronics and Telecommunications (E&T)
Specialisation: Information and Communication Technologies (ICT)
3-semester programme - intended for BSc graduates in electronics
Ÿ
and telecommunications
4-semester programme - dedicated to BSc diploma holders in areas
Ÿ
other than those related to E&T.
Details: http://www.et.put.poznan.pl/index.php/en/prospective-students
Admission details: www.put.edu.pl
PhD programme in Communication Technologies (CT)
The Faculty of Electronics and Telecommunications has the right to confer the
PhD degree in the scientific discipline of Telecommunications (subject area:
Information Engineering; field of science and technology: Engineering and
Technology).
PhD programme and admission information:
http://www.et.put.poznan.pl/index.php/en/students/phd-programe
Exchange programme ERASMUS
The Faculty can host exchange students from 30 universities within the
EU ERASMUS programme, basically at the MSc level, but also BSc students.
The Faculty places great importance on studies in English, and as a result of
constant University and Faculty initiatives, the number of international students
increases year by year.
STUDYING IN POLISH
Degree programmes available at FET PUT:
Ÿ
BSc and MSc programmes in Electronics and Telecommunications
Ÿ
MSc programme in Technical Applications of the Internet
Programme information and application details at:
www.put.poznan.pl/rekrutacja
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Chair
Wireless Communications
Dean’sofaddress
Head
Prof. Paweł Szulakiewicz
Academic staff
Prof. Hanna Bogucka, Prof. Jerzy Tyszer, Prof. Krzysztof Wesołowski
10 assistant professors, 13 PhD students & teaching assistants
Research Areas
The academic staff members are mainly involved in research concerning wireless systems and
networks. The most recent research topics are: 4G networks, cognitive radio, network coding, wireless
LANs and communication theory. Besides wireless communications, intensive research is also focused
on the methods and algorithms of VLSI testing.
Within the above listed wireless communications research fields, specific topics are investigated by
the teams led by Prof. Bogucka, Prof. Wesołowski and Prof. Szulakiewicz, namely: spectrum utilization
in opportunistic OFDMA networks, properties of generalized multicarrier modulations, application of
game theory in cognitive radio and spectrum management, new 4G transceiver algorithms, PAPR
reduction of OFDM signals, applications of MIMO and network coding in relays applied in future
wireless communications, MAC protocols in wireless networks and cellular systems, optimization
criteria of cellular system RRM schedulers, iterative detection of space-time coded modulations using
the BI-STCM-ID scheme, investigations of new space-time diversity schemes, iterative decoding,
methods of throughput maximization in IEEE 802.11s-based mesh networks, security in wireless
networks, decoding algorithms and link adaptation algorithms involving adaptive modulation and
coding.
Prof. Tyszer's team is actively involved in many research and development projects that resulted in
practical, patented, award-winning, and industry-proven solutions. They include several innovative
methods and technologies deployed to test digital integrated semiconductor circuits and systems. Many
successful projects are results of a long and very fruitful collaboration with Mentor Graphics
Corporation, a US-based semiconductor company. Mentor Graphics is the world leader in electronic
hardware and software design solutions providing electronic design automation (EDA) products.
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KR
National Projects
Since 2009, six national projects funded by the Ministry of Science and Higher Education, NCN
(National Science Center) or NCBiR (National Center for Research and Development) and co-funded by
the European Union, have been performed by the Chair groups:
Ÿ
Reception methods for cognitive radio systems utilizing NC-OFDM modulation. 2013-2015.
Doctoral project for the PhD student Paweł Kryszkiewicz. PhD supervisor: Prof. H. Bogucka
Ÿ
New algorithms for PHY and MAC layers in V2V and V2I transmission systems. 2012-2014.
Supervisor: Prof. K. Wesołowski
Ÿ
Breaking 1 Gb/s barrier of the WLAN data rate. 2012-2014. Supervisor: Prof. P. Szulakiewicz
Ÿ
New methods of data transmission in WLANs. 2010-2012. Supervisor: Prof. P. Szulakiewicz
Ÿ
Future Internet engineering. Realised by Prof. K. Wesołowski’s group, co-ordinated by the Warsaw
University of Technology, and co-funded by the European Regional Development Fund
www.iip.net.pl/en/project
under the Operational Programme “Innovative Economy”
Ÿ
Receiver algorithms for the adaptively modulated signals with non-orthogonal subcarriers.
Doctoral project for the PhD student Adrian Kliks. PhD supervisor: Prof. H. Bogucka
International Projects
The following research and educational EU-funded projects have been carried out within the Chair since 2009:
Ÿ
METIS Mobile and wireless communications Enablers for Twenty-twenty (2020) Information Society
http://www.metis2020.com
FP7 IP. 2012-2015. Supervisor: Prof. K. Wesołowski
Ÿ
NEWCOM# Network of Excellence in Wireless Communications#. FP7 NoE. 2012-2015.
http://www.newcom-project.eu
Supervisor: Prof. H. Bogucka
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ACROPOLIS Advanced coexistence technologies for radio optimisation in licensed and unlicensed spectrum.
www.ict-acropolis.eu
FP7 NoE. 2010-2013. Supervisor: Prof. H. Bogucka
COST IC0902 Cognitive radio and networking for cooperative coexistence of heterogeneous wireless networks.
Ÿ
http://acts.ing.uniroma1.it/IC0902
2009-2013. Supervisor: Prof. H. Bogucka
COGEU Cognitive radio systems for efficient sharing of TV white spaces in European context. FP7
Ÿ
www.ict-cogeu.eu
2010-2012. Supervisor: Prof. H. Bogucka
GALAPAGOS Galileo-based seamless and robust positioning applications for logistics optimization processes. FP7.
Ÿ
http://galapagos-project.eu/wb/index.php
2009-2011. Supervisor: Prof. K. Wesołowski
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Chair
Wireless Communications
Dean’sofaddress
Industry-Funded Research
Co-operation
Ÿ
with Nokia Solutions and Networks
(formerly Nokia Siemens Networks), R&D Center, Wrocław, Poland
Based on a framework agreement between the Poznan University of Technology and Nokia Solutions
and Networks, Sp. z o.o., the research group led by Prof. Wesołowski is performing industrial
investigations devoted to 3G cellular systems and their upgrades. Partial results have been published
in conference proceedings of leading conferences devoted to mobile communications.
Co-operation
Ÿ
with Mentor Graphics Corporation, USA
Prof. Tyszer's research group has established a long and fruitful co-operation with Mentor Graphics
Corporation, Wilsonville, OR, USA. It has resulted in numerous papers published with the
company's staff members in scientific journals, patents, as well as the Embedded Deterministic Test
technology (EDT), introduced by Mentor Graphics in 2001 as TestKompress.
Research grant funded by Semiconductor Research Corporation, USA
Ÿ
Embeded deterministic system level test with low power dissipation
In 2007-2010 Prof. Tyszer's group conducted research in the area of test data compression. It was the
first R&D project funded by SCR in the field of testing semiconductor circuits in Europe. The methods
to achieve data reduction by one or two orders of magnitude higher than those obtained in the best
solutions known before have been developed in the project.
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Conferences
In 2012 the Chair hosted a significant international conference:
18th European Wireless Conference, April 2012, Poznań
www.ew2012.org
– a significant European wireless conference
Other important scientific meetings recently organised by the Chair:
National Conference on Wireless Communications, Radio Broadcasting and Television
KKRRiT 2011 – the most important Polish conference devoted to wireless systems,
television and broadcasting. It circulates annually among the largest Polish technical
universities offering academic education in telecommunications and multimedia:
Warszawa, Kraków, Wrocław, Gdańsk, and Poznań
http://kkrrit.et.put.poznan.pl
Poznań Telecommunications Workshop PWT – annual national conference devoted to
recent achievements in wireless systems, networks, telecommunication systems,
and education in electronics and telecommunications, held every year in December; in
2012 for the 16th time
www.pwt.et.put.poznan.pl
Research and Teaching Laboratories
Ÿ
Wireless communications laboratory
Wireless communications laboratory is equipped with modern devices aimed at signal generation and analysis in
mobile communication systems. The main elements of the equipment are the Rohde & Schwarz SMIQ generator and
the Rohde & Schwarz FSIQ signal analyzer. The third element of the measurement set is the Rohde & Schwarz CMU200
universal radiocommunication tester. An important part of the laboratory are DSP toolkits based on Texas Instruments
TMS320C6000 DSP chips coupled with boards of high-speed D/A and A/D converters and FPGA chips. The
development boards are supplemented with software (C++ and FPGA synthesis). The laboratory is also equipped with
advanced Software Defined Radio (SDR) development cards based on TMS floating point DSPs and Xilinx FPGA chips.
Several scientific and educational experiments can be performed using USRP boards (from Ettus Research and National
Instruments) implementing RF parts of radio transceivers. The baseband blocks of these transceivers are implemented
in software on PCs.
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Microprocessor laboratory (ARM Cortex M4)
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WLAN laboratory
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Computer laboratory
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VLSI testing of digital circuits – software used by this laboratory has been entirely privided
by Mentor Graphics Corporation
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Computer cluster – featuring about 100 processor cores for intensive simulation campaigns.
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Chair
of Multimedia
Communications and Microelectronics
Dean’s
address
Head
Prof. Marek Domański
Academic staff
Prof. Wojciech Bandurski
9 assistant professors, 11 PhD students & teaching assistants
Research Areas
The Chair’s research areas include: image, video and audio processing and compression, image and video
analysis, 3D video, spatial audio, digital television, interactive TV, free-view TV, video surveillance, medical
image processing, IP cores, embedded systems, hardware implementations for multimedia, design for FPGA
and ASIC, wideband wireless transmission, signal propagation in electronic circuits, waves and antennas.
The Chair boosts internationally recognised achievements, for example an original scalable video codec
and original 3D video coding technology, both scored as top worldwide research achievements in MPEG
contests.
Industry-Oriented Research
The Chair has established tradition of industry-oriented research together with companies and institutions
from Poland, Germany, USA, Great Britain, Korea, etc. The collaboration resulted in numerous practical
solutions applicable in digital television, multimedia Internet-based systems, oil dwellings, video surveillance
etc. Example outcomes include one of the world’s first MPEG-4 AVC decoders for digital television, as well as
MPEG-4 AVC video codec for industrial compliance tests, original video codec IP core, image compression
technology for oil search dwellings, software for depth estimation and view synthesis, software for sports events
video analysis, multiview video test sequences, original 3D video compression technology and its software
implementation, original HEVC codec implementation, multiview and 3D HEVC extension tools, freeviewpoint video demonstrations, an audio coding tool in extension of USAC, an original FPGA-based system for
control and synchronization of multiple cameras, etc.
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National projects
The following national research projects (supervised by Prof. M. Domański, Dr M. Bartkowiak,
Dr D. Karwowski, Dr S. Maćkowiak, K. Wegner, MSc, and O. Stankiewicz, MSc) have been implemented
in 2011-2013:
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Estimation of temporarily consistent stereoscopic depth maps (2013-2016)
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Efficient control mechanisms for HEVC video encoder (2013-2016)
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Virtual views synthesis: input data preparation and synthesis algorithms (2013-2015)
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Methods of high efficiency compression for the transmission of spatial representations of motion scenes
(2013-2015)
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Segmentation and object motion trajectory estimation in 3D video (2011-2014)
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System for automatic gathering of data on road vehicles using stereoscopic video analysis (2011-2013)
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High-efficiency video codec implementation systems (2010-2013)
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New algorithms of compression and reconstruction of three dimensional video (2010-2012)
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Development of multimodal audio compression technology (2010-2012)
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Improved adaptive arithmetic coding for video compression (2010-2012)
International Research Projects
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COST IC1105: 3D-Contournet: 3D content creation, coding and transmission over future media networks
(since 2012). Supervisor: Prof. M. Domański
Ÿ
Video coding technologies. Partner: Mitsubishi Electric VIL (UK). 2009-2011.
Supervisor: Prof. M. Domański
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Chair
of Multimedia
Communications and Microelectronics
Dean’s
address
International Standardisation
For many years, the team of the Chair has actively participated in international standardisation activities in
MPEG (within ISO), JVT, JCT-VC, JCT-3V (jointly ISO and ITU-T). Apart from these abovementioned very
successful technology proposals highly scored by MPEG, other contributions included 3D video test material,
depth estimation, view synthesis, 3D video coding tools, contributions to Universal Speech and Audio Codec
(USAC) etc. Chair members were elected as chairmen of various task groups and editors of standardisation
documents. Active participation in standardisation at the national level should also be mentioned (e.g. Prof.
Domański chairs the National Committee for Multimedia).
Industry-Funded Projects
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3D vision – 3D video capturing and processing, 2012-2014
Ÿ
SmartMonitor – intelligent video processing for surveillance, 2012-2013
Ÿ
Video acquisition for free-viewpoint television, 2012 (partner: Orange Labs Poland)
Virtual view synthesis using graphic processing unit, 2011 (partner: Orange Labs Poland)
Ÿ
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Conferences
10th IEEE International Conference on Advanced Video and Signal-based
Surveillance AVSS 2013, August 2013 – a leading international world scientific
conference on topics related to video surveillance
www.avss2013.org
29th Picture Coding Symposium PCS, May 2012 – a leading international
scientific conference on image and video compression held since 1969;
the conference circulates from the Far East to North America to Europe.
www.pcs2012.org
Research and Teaching Laboratories
Ÿ
3D video technology research laboratory (with a unique multiview acquisition system)
The laboratory is a platform for research on advanced information technology focused on future Internetbased interactive multimedia systems, advanced 3D television, free-viewpoint television, high-efficiency
3D video compression and transmission techniques, 3D video-based surveillance systems and 3D video
analysis applications. The laboratory offers equipment supporting the above-mentioned research tasks:
a worldwide famous unique multiview HD-video acquisition system, an UHDTV camera and other stereo
cameras, a 3D presentation system and high-performance computer clusters. The multiview acquisition
system consists of 9 HD cameras placed on a mobile rig. This carefully synchronized system is capable of
producing 9 simulcast uncompressed video streams captured by the computer and storage system. The
presentation system consists of a 28-view autostereoscopic (glassless) display, high-quality polarization
stereoscopic displays, a number of smaller 3D displays as well as an HD stereoscopic projection systems.
Spatial audio research laboratory
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Multimedia laboratory
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Field-programmable device laboratory
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Printed board technology laboratory (with printed board production system)
Waves and antennas laboratory
Ÿ
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Electronic circuit laboratory
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Digital television laboratory
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Chair
of Communication
and Computer Networks
Dean’s
address
Head
Prof. Maciej Stasiak
Academic staff
Prof. Wojciech Kabaciński, Prof. Grzegorz Danilewicz,
Prof. Mariusz Głąbowski
7 assistant professors, 6 PhD students and teaching assistants
Research Areas
The Chair academic staff members are mainly engaged in research in the area of
performance analysis and modelling of queuing systems, multiservice networks and
switching systems. The mission of the group led by Prof. Kabaciński is research in the field of
switching and routing theory with special regard to non-blocking operation of network
nodes, control algorithms, optical and broadband networks, optical switching networks and
Future Internet.
The main research interest of Prof. Stasiak's group includes traffic and queuing theory,
analysis and modelling of communication and information systems, in particular: resource
allocation, call admission control, multicast algorithms, multi-rate systems, and statedependent systems. Since 2004 the group has been carrying out research on modelling and
dimensioning cellular 2G/3G/4G networks.
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National Projects
The Chair's researchers have been carrying out four national projects, financed by the Ministry of Science
and Higher Education and co-financed by the European Union:
Environment for network protocols tests based on Openflow systems. 2011-2014.
Ÿ
Supervisor: Prof. W. Kabaciński
Future Internet engineering. 2010-2012 – both Prof. W. Kabaciński's and Prof. M. Stasiak's groups
Ÿ
particpated in the project co-ordinated by Warsaw University of Technology, co-funded by the
European Regional Development Fund under the Operational Programme “Innovative Economy”
www.iip.net.pl/en/project
Traffic capacity dimensioning in the access radio network 2G/3G/4G. 2009-2012.
Ÿ
Supervisor: Prof. M. Stasiak
Ÿ
New architectures of optical switching fabrics, thier evaluation and comparison. 2009-2010.
Supervisor: Prof. W. Kabaciński
Ÿ
Wide sense nonblocking multicast log2(N, m, p) switching networks. 2006-2009.
Supervisor: Prof. G. Danilewicz
International Projects
Both research and educational EU-funded projects have been performed in the Chair:
Ÿ
ALIEN Abstraction layer for implementation of extensions in programmable networks, 2012-2014,
Supervisor: Prof. G. Danilewicz
Ÿ
CARMNET Carrier-grade delay-aware resource management for wireless multi-hop/mesh networks,
2012-2014, Supervisor: Prof. W. Kabaciński
Ÿ
BONE Building the Future Optical Network in Europe. FP7 NoE. 2008-2010.
http://www.ict-bone.eu
Supervisor: Prof. W. Kabaciński
Ÿ
COST 291 Towards the Future Optical Network in Europe: The e-Photone/One Network. 2006-2008.
http://www.cost.esf.org
Supervisor: Prof. W. Kabaciński
Ÿ
COST 293 - GRAAL Graph & Algorithm in Communication Networks. 2006-2008.
http://www.cost.esf.org
Supervisor: Prof. W. Kabaciński
Ÿ
IntEleCT Internationalisation of Electronic Communications Training. Leonardo da Vinci LLP Transfer
http://intelect.cvut.cz
of Innovations Project. 2009-2011. Supervisor: Dr P. Zwierzykowski
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Chair
of Communication
and Computer Networks
Dean’s
address
Projects Carried out With Industry
Ÿ
Co-operation
with Polska Telefonia Cyfrowa (PTC)
(Polish Digital Telephony; currently the Polish mobile operator T-mobile Poland)
Prof. Stasiak's research group has been co-operating with the mobile operator T-mobile Poland. The results
are computer-aided tools for mobile network dimensioning and optimisation as well as numerous papers
published jointly with the operator's staff members in scientific journals. The following projects have been
performed for T-mobile Poland:
• Dimensioning of noise limited systems – IP interfaces. 2011. Supervisor: Prof. M. Stasiak
• Fax Over IP. 2008-2009. Supervisor: Prof. M. Głąbowski
• Dimensioning of Abis/Iub interfaces and BSC/RNC resources. 2008-2009. Supervisor: Prof. M. Stasiak
Conferences
The most important scientific meeting recently organised by the Chair are:
Ÿ
NetFPGA Workshop Spring Camp, May 2013
http://netfpga.pl
Ÿ
The Forum for European ICT & Media Professionals FITCE, September 2012
IEEE IET International Symposium on Communication Systems,
http://csndsp2012.pl
Networks and Digital Signal, July 2012
First European Teletraffic Seminar ETS, February 2011
Ÿ
http://ets2011.et.put.poznan.pl
A conference to be organised in the near future:
IEICE Information and Communication Technology Forum 2014 Processing ICTF,
scheduled for July 2014
htttp://www.ictf2014.org
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Research and Teaching Laboratories
Computer networks laboratory
Ÿ
The laboratory provides facilities for training in computer networks (basic level) and programming (including
programming of embedded systems). The laboratory is equipped with professional Cisco network devices
(12 Cisco 2600XM Series multiservice routers and 6 Cisco Catalyst 2950 series switches), 11 KSTiK-designed
sets for programming of embedded systems and 11 available computer stands.
Advanced computer networks laboratory
Ÿ
The laboratory provides facilities for training in computer networks at the advanced level (routing, switching,
network security, WLAN). The laboratory is equipped with 6 Cisco 2800 series and 3 Cisco 2900 series routers,
6 Cisco Catalyst 2960 series switches and 3 Cisco Catalyst 3560 series switches. It is also equipped with 3 Cisco
Wireless Network Controllers and 12 Access Points (Cisco and Linksys). The number of available computer
stands is 11.
VoIP laboratory
Ÿ
The VoIP laboratory contains: 3 types of VoIP servers – based on Asterisk, SER and CallEx. They are
connected to a professional VoIP provider and have access to PSTN, GSM and other VoIP networks with
public numbers. The lab equipment also includes about 15 IP phones and many softphones. The laboratory
mainly makes use of the SIP protocol but it is also possible to use IAX, MGCP and other VoIP protocols.
Future Internet laboratory
Ÿ
The laboratory consists of multiple network hardware entities, delivering functionalities of all layers
of the ISO/OSI network. It offers the following equipment: Juniper MX240 3D Universal Edge Router,
two Juniper EX 3200 switches, twelve NetFPGA cards, the Network processor NP3 from EzChip,
three high performance virtualization servers from HP, eight Cisco routers and switches, the Spirent Network
Test Center.
Broadband network laboratory
Ÿ
The laboratory provides facilities for training in broadband networks. It is equipped with 2 Alcatel-Lucent SR
1 7750 Service Routers, 2 ATM switches (ASX1000, LE155), telephone exchange (Lucas Nulle), Tektronix – SS7
analyser, and IBT-10U – DSS1 analyser.
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Chair
of Telecommunication
Systems and Microelectronics
Dean’s
address
Head
Prof. Ryszard Stasiński
Academic staff
Prof. Andrzej Dobrogowski, Prof. Waldemar Nawrocki,
Prof. Anna Domańska, Prof. Mieczysław Jessa
11 assistant professors and 3 PhD students
Research Areas
The Chair staff forms four groups, and their research activities can be labelled by the
keywords: communications systems, metrology, optoelectronics, and signal processing.
More precisely, the academic staff members are involved in research linked with theory
and practice of system synchronization techniques, chaotic phenomena, and their
application for secure communications, design and programming of computer
measuring systems, signal processing in metrology, applications of microprocessors,
cryoelectronics and nanostructures, fiber optics, superresolution, and lossless image
coding.
For nearly twenty years the synchronisation group has co-operated with the Polish
Telecom and other communication operators in the field of synchronization. Within the
co-operation scheme, both academic and technical staff members have devised,
constructed, installed, and maintained over a thousand units of synchronization
equipment.
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National Projects
In the last two years three national projects, financed by the Ministry of Science and Higher
Education have been conducted by the academics of the Chair:
Ÿ
Laboratory setup of coherent ultra dense wavelength division multiplexing (CoUDWDM) fiber
system applying multiwavelength source of optical carrier frequencies. 2009-2014.
Supervisor: Prof. A. Dobrogowski
Ÿ
Multichannel measurement and analysis of real-time synchronization signal. 2011-2013.
Supervisor: Dr M. Kasznia
Ÿ
Metrology and monitoring. 2008-2011. Supervisor: Prof. A. Dobrogowski
Projects With Industry. Services for Business
Ÿ
Co-operation with telecommunication operators in Poland
Since the early nineties, the synchronisation group, now supervised by
Prof. Mieczysław Jessa, has been building, installing and maintaining
synchronisation equipment for different communication institutions, among others
the Polish Telecom and the mobile operator ERA (now T-Mobile). Recently, the thirdgeneration Synchronization Supporting System (Polish abbreviation SWS) has been
constructed; in total, over a thousand units of SWS components have been installed.
SWS appears to be competitive, compared with the solutions proposed by major
communication measurement equipment manufactures.
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Chair
of Telecommunication
Systems and Microelectronics
Dean’s
address
Conferences
The Chair has recently organised or co-organised significant scientific meetings:
Advanced Video and Signal-Based Surveillance IEEE Conference, Kraków 2013,
www.avss2013.org
participation in organization
Picture Coding Symposium 2012 – joint organisation with the Chair
www.pcs2012.org
of Multimedia Telecommunications and Microelectronics
Quantum Metrology – a series of international conferences, organised by
Prof. W. Nawrocki's group since 2009; the fourth edition took place in May 2013
http://www.kwant.et.put.poznan.pl
Future conference:
Ÿ
International Conference on Signals and Electronic Systems 2014
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STO
i
Research and Teaching Laboratories
Ÿ
Photonics and fiber communications laboratory
It is one of the best educational fiber communications labs in Poland. The collected equipment is good enough for the
realisation of the majority of standard fiber optics communications measurement procedures, both in time
and frequency. It means that the lab can be also used (and in fact is used) for research purposes: the properties of optical
elements and whole optical systems can be analysed.
Ÿ
Computer measurement systems laboratory
In the lab, students construct microprocessor systems by composing a "jig-saw puzzle" of blocks: a microprocessor with
memory, UART/USART, interfaces: RS-232, LAN, IEEE-488, and others, measurement cards, etc. The system may be
programmed in an assembler, but also using specialised software, like LabView, or VEE.
Ÿ
Communications basics laboratory
In this laboratory, students construct modulators and demodulators with a set of basic modules, like mixers, filters,
VCO generators, etc. Signals produced by these modules are observed in digital oscilloscopes in time and frequency
domain (FFT). The quality of the modulator-demodulator pair is measured with the use of distortion meters and
assessed by students with earphones. The students also observe how impairments, e.g., frequency offset, phase offset,
phase discontinuities, noise, etc., influence the quality of voice transmission. The exercises include AM, FM, PM, SSB,
DSB modulators/demodulators and the phase-locked loops as FM/PM demodulators.
Ÿ
Optotelecommunications laboratory Ÿ
Signal processing laboratory
Ÿ
Time and frequency laboratory
Ÿ
Synchronisation processes laboratory
Ÿ
Electronics and metrology laboratory
21
Habilitation Dissertations
Ÿ
Grzegorz Danilewicz, Optimization of Multicast Nonblocking Switching Networks,
Wydawnictwo Politechniki Poznańskiej, Poznań 2009, Rozprawy / Politechnika
Poznańska, ISSN 0551-6528; no. 431, ISBN 978-83-7143-826-4.
Ÿ
Mariusz Głąbowski, Modelling of Multi-Rate Communication Systems Servicing
BPP Call Streams, Wydawnictwo Politechniki Poznańskiej, Poznań 2009,
Rozprawy/ Politechnika Poznańska, ISSN 0551-6528; no. 433, ISBN 978-83-7143-836-3.
22
Doctoral Dissertations
2013
Jacek Konieczny, Motion information coding for 3D video compression
Ÿ
Marcin Parzy, Application of Game Theory in Resource Sharing Algorithms in Cognitive Radio Systems
Ÿ
Adam Sobczyk, Optimisation of the WCDMA radio network capacity and coverage in reality of the existing
Ÿ
GSM/UMTS networks' operators
Marta Stępniewska, Advanced video codecs implementation using Networks-on-Chip in FPGA devices
Ÿ
2012
Krzysztof Klimaszewski, Compression algorithms for muti-view sequences
Ÿ
Paweł Sroka, Resource allocation algorithms for next generation wireless communication systems
Ÿ
Michał Sybis, Simplified decoding algorithms for signals with turbo-trellis coded modulations
Ÿ
2011
Adrian Kliks, New Transmission and Reception Techniques of the Generalized Multicarrier Signals
Ÿ
Marek Michalski, Connection control algorithms in banyan-type switching networks
Ÿ
Bartłomiej Ziółkowski, Mobile Agent-Based Digital Rights Management Scheme
Ÿ
2010
Dariusz Czysz, Low power test application with selective compaction in VLSI designs
Ÿ
Piotr Górniak, Modeling of Ultra-Wideband Wireless Communication Channels with Convex Obstacles
Ÿ
Tomasz Grajek, Modeling of Advanced Video Encoders (in Polish)
Ÿ
Adam Kaliszan, Application of the Convolutional Algorithms in Modeling of the State-Dependent Systems
Ÿ
Maciej Krasicki, Iterative Receivers in Wireless Computer Networks (in Polish)
Ÿ
Maciej Piechowiak, Effectiveness of the Routing Algorithms for Multicast Links in Packet-Switching Networks
Ÿ
Tomasz Żernicki, Digital sound compression including bandwidth extension and signal modeling (in Polish)
Ÿ
2009
Ÿ
Adrian Langowski, Time and Frequency Synchronisation in OFDM Wideband Wireless Systems
Ÿ
Agnieszka Ligocka, Link Inductance Impact on Signal Propagation in VLSI Circuits (in Polish)
Ÿ
Przemysław Lisowski, Cost saving modifications of line-interactive Uninterruptible Power Supplies decreasing
energy transfer disturbances during changing the states (in Polish)
Ÿ
Jarosław Marek, Video Transcoding Using Advanced Compression Techniques (in Polish)
Ÿ
Tadeusz Nawalaniec, Development of Traffic Control Systems Using Diverse Telematic Techniques (in Polish)
Ÿ
Jacek Suchanek, The Structure and Parameters of a Distributed Measurement System Employing
Data Transmission over Low Power-Line (in Polish)
Ÿ
Arkadiusz Wiśniewski, Investigation of WCDMA Cellular Systems Traffic Load (in Polish)
23
Advances
in Electronics and Telecommunications
Dean’s address
Advances in Electronics and Telecommunications
is a peer-reviewed journal published by Poznan
University of Technology. It publishes scientific
papers devoted to a number of significant
problems in the area of contemporary electronics
and telecommunications.
Issued in both electronic and paper form.
ISSN 2081-8580
Issues:
24
1.
Radio Communication Series: Recent Advances
and Future Trends in Wireless Communication,
2010, vol. 1, no. 1 – Editor: Hanna Bogucka,
2.
Poznań Telecommunications Workshop,
2010, vol. 1 no. 2 – Editor: Paweł Szulakiewicz
3.
Recent Advances in Teletraffic,
2011, vol. 2 no. 3 – Editor: Mariusz Głąbowski
4.
Radio Communication Series: Recent Advances
in Wireless Communication Networks,
2011, vol. 2 no. 4 - Editors: Alain Sibille,
Davide Dardari, and Hanna Bogucka
Available at: http://www.advances.et.put.poznan.pl
Selected Publications in English
(June 2013–January 2009)
NETWORKS
Book
Ÿ
M. Stasiak, M. Głąbowski, A. Wiśniewski, and P. Zwierzykowski, Modeling and dimensioning of mobile networks: from GSM to LTE,
John Wiley & Sons, Chichester, 2011.
Journals
Ÿ
M. Stasiak, P. Zwierzykowski, “Traffic Engineering for Multicast Connections in Multiservice Cellular Networks”,
IEICE Transactions on Communications, vol. 8, no. 1, 2012.
Ÿ
M. Stasiak, P. Zwierzykowski, “Analytical Model of the Single Threshold Mechanism with Hysteresis for Multi-service Networks”,
IEICE Transactions on Communications, E95-B, 2012.
Ÿ
M. Głąbowski, S. Hanczewski, M. Stasiak, “Modeling Erlang's ideal grading with multi-rate BPP traffic”,
Mathematical Problems in Engeneering, 2012.
Ÿ
M. Głąbowski, M. Stasiak, “Properties of recurrent equations for the full-availability group with BPP traffic”,
Mathematical Problems in Engeneering, 2012.
Ÿ
G. Danilewicz, W. Kabaciński, R. Rajewski, “The log2N-1 Optical Switching Fabrics”, IEEE Transactions on Communications,
vol. 59, no. 1, Jan. 2011.
Ÿ
W. Kabaciński, T. Wichary, “Nonblocking Multirate log2(N; m; p) Switching Networks with Multicast Connections”,
Networks, vol. 57, no. 4, July 2011.
Ÿ
M. Głabowski, A. Kaliszan, M. Stasiak, “Modeling product-form state-dependent systems with BPP traffic”,
Journal of Performance Evaluation, vol. 67, no. 3, 2010.
Ÿ
M. Stasiak, P. Zwierzykowski, “Multi-service switching networks with overflow links”, Image Processing & Communications,
vol. 15, no. 2, 2010.
Ÿ
M. Głąbowski, M. Stasiak, A. Wiśniewski, P. Zwierzykowski, “Blocking Probability Calculation for Cellular Systems with
WCDMA Radio Interface Servicing PCT1 and PCT2 Multirate Traffic”, IEICE Transactions on Communications,
vol. E92-B, no. 04, Apr. 2009.
Ÿ
G. Danilewicz, “Wide-Sense Nonblocking Multicast logd(N,m,p) Switching Networks Under the Window Algorithm”,
IEEE Transactions on Communications, vol. 57, no. 12, December 2009.
Ÿ
M. Głąbowski, M. Stasiak , P. Zwierzykowski, “Modeling of Virtual-Circuit Switching Nodes with Multicast Connections”,
European Transactions on Communications, vol. 20, no. 2, March 2009.
Ÿ
M. Stasiak, M. Piechowiak, P. Zwierzykowski, “The Application of K–Shortest Path Algorithm in Multicast Routing”,
Theoretical and Applied Informatics, PAN, vol. 21, no. 2, 2009.
25
Selected
in English
Dean’s Publications
address
(June 2013–January 2009)
Conference proceedings
Ÿ
Ÿ
P. Zwierzykowski, “The Evaluation of Unconstrained Multicast Routing Algorithms in Ad-Hoc Networks”,
International Science Conference: Computer Networks, Springer, CCIS, Szczyrk, Poland, 2012.
Ÿ
M. Sobieraj, M. Stasiak, P. Zwierzykowski, “Model of the Threshold Mechanism with Double Hysteresis for Multi-
service Networks”, International Science Conference: Computer Networks, Springer, CCIS, Szczyrk, Poland, 2012.
Ÿ
W. Kabaciński, M. Michalski, “The Algorithm for Rearrangements in the Log2(N; 0; p) Fabrics with Odd Number
of Stages”, IEEE International Conference on Communications ICC, Kyoto, Japan, 5-9 June 2011.
Ÿ
M. Głąbowski, M.Sobieraj, M. Stasiak, J. Weissenberg, “Switching Networks with Hysteresis Mechanism”,
The 7th Advanced International Conference on Telecommunications, AICT, St. Maarten, Holland, 20-25 March 2011.
Ÿ
M. Głąbowski, S. Hanczewski, M. Stasiak, “Erlang's ideal grading in DiffServ modeling”, IEEE AFRICON,
Livingstone, Zambia, 13-15 September 2011.
Ÿ
P. Zwierzykowski, “Lagrangian Relaxation in the Multicriterial Routing”, IEEE AFRICON, Livingstone, Zambia,
13-15 September 2011.
Ÿ
M. Stasiak, P. Zwierzykowski, “Multicast Connections in Mobile Networks with Embedded Threshold Mechanism”,
International Science Conference: Computer Networks, Springer, CCIS, Ustroń, Poland, 2011.
Ÿ
W. Kabaciński, M. Żal, “Banyan type switching network with wavelength routing”, International Conference on
Transparent Optical Networks ICTON, 26-30, Stockholm, Sweden, June 2011.
Ÿ
D. Parniewicz, M. Stasiak, P. Zwierzykowski, “Model of the k-cast connections in mobile networks”, IEEE&IET
International Symposium on Communication Systems, Networks and Digital Signal Processing, Northumbria
University, Newcastle upon Tyne, United Kingdom, July 2010 (best paper award).
Ÿ
M. Głąbowski, M. Sobieraj, “Compression Mechanism for Multi-service Switching Networks with BPP traffic”,
IEEE&IET International Symposium on Communication Systems, Networks and Digital Signal Processing,
Northumbria University, Newcastle upon Tyne, United Kingdom, July 2010.
Ÿ
W. Kabaciński, M. Michalski, “The FPGA Implementation of the log2(N,0,p) Switching Fabric Control Algorithm”,
IEEE International Conference of High Performance Switching and Routing, June 2010.
Ÿ
M. Głąbowski, M. Sobieraj, M. Stasiak, “Modelling Limited-Availability Groups with BPP Traffic and Bandwidth
Reservation”, Proceedings of the Fifth Advanced International Conference on Telecommunications, Venezia, 2009
(best paper award, IEEE Computer Society).
Ÿ
M. Stasiak, M. Piechowiak, P. Zwierzykowski, “On the Methodology for the Evaluation of Unconstrained Multicast
Routing Algorithms”, ICT, Marrakech, May 2009.
Ÿ
J. Kleban, Sz. Piotrowski: “Performance Evaluation of Selected Packet Dispatching Schemes for the CBC Switches”,
Proc. IEEE GLOBECOM, Hilton Hawaiian Village, Honolulu, Hawaii, USA, 30 Nov.- 4 Dec. 2009.
Ÿ
G. Danilewicz, “Optimization of Multicast logd(N,m, p) Switching Networks”, IEEE GLOBECOM, Honolulu,
USA, 2009.
Ÿ
. G. Danilewicz, W. Kabaciński, R. Rajewski, “The New Banyan-Based Switching Fabric Architecture Composed
of Asymmetrical Optical Switching Elements”, IEEE GLOBECOM, Honolulu, HI, USA 30 Nov.- 4 Dec. 2009.
26
MULTIMEDIA & MICROELECTRONICS
Books
Ÿ
W. Bandurski, P. Górniak, A. Wardzińska, A. Woźniak, Methods for electromagnetic field analysis and wave propagation
for electronics and telecommunications (in Polish), Publishing House of Poznan University of Technology, Poznań, 2012.
Ÿ
J. Szóstka, Line-of-sight radio systems (in Polish), Publishing House of Poznan University of Technology, Poznań, 2011.
M. Domański, Digital pictures. Fundamentals, JPEG, MPEG (in Polish), WKŁ – Transport and Communication Publishers,
Warsaw, 2010.
Journals & publication series
Ÿ
S. Maćkowiak, “Segmentation of football video broadcast”, International Journal of Electronics and Telecommunications,
vol. 59, 2013.
Ÿ
M. Domański, O. Stankiewicz, K. Wegner, M. Kurc, J. Konieczny, J. Siast, J. Stankowski, R. Ratajczak, T. Grajek,
“High efficiency 3D video coding using new tools based on view synthesis”, IEEE Transactions on Image Processing,
vol. 22, 2013.
Ÿ
A. Łuczak, M. Stępniewska, J. Siast, M. Domański, O. Stankiewicz, M. Kurc, J. Konieczny, “Network-on-Multi-Chip
(NoMC) with monitoring and debugging support”, Journal of Telecommunications and Information Technology,
no 3/2011, 2011.
Ÿ
M. Domański, K. Klimaszewski, O. Stankiewicz, J. Stankowski, K. Wegner, “Efficient transmission of 3D video using
MPEG-4 AVC/H.264 compression technology, Lecture Notes in Computer Science, vol.. 6157, Springer-Verlag, 2010.
Ÿ
D. Karwowski, M. Domański, “Improved context – based adaptive binary arithmetic coding in MPEG-4 AVC/H.264
video codec”, Lecture Notes in Computer Science, no. 6375, Springer-Verlag, 2010.
Ÿ
A. Ligocka, W. Bandurski, “Multiple Scales Method in VLSI interconnects threshold crossing time calculation”,
IEEE Transactions on Advanced Packaging, vol. 32, 2009.
Ÿ
D. Karwowski, M. Domański, “Optimized architectures of CABAC codec for IA-32-, DSP- and FPGA-based platforms”,
International Journal Image Processing and Communications, vol. 14, 2009.
Ÿ
J. Marek, “Homogenous video transcoding of H.264/AVC intra coded frames”, Lecture Notes in Computer Science, vol.
5337, Springer-Verlag, 2009.
27
Selected
in English
Dean’s Publications
address
(June 2013–January 2009)
Conference proceedings
Ÿ
T. Grajek, O. Stankiewicz, K. Wegner, “Correlation analysis between MOS data collected on stereoscopic and
autostereoscopic displays”, JCT-3V (ITU-T SG 16 WP 3 and ISO/IEC JTC 1/SC 29/WG 11 ) Doc. C0202, Geneva,
Switzerland, January 2013.
Ÿ
A. Wardzińska, W. Bandurski, “Step response sensitivity of VLSI Interconnects”, 17th Workshop on Signal and Power
Integrity SPI, Paris, France, May 2013 (IEEExplore).
Ÿ
D. Karwowski, “Improved adaptive arithmetic coding for HEVC video compression technology”, International Conference
on Computer Vision and Graphics ICCVG, Warsaw, Poland, September 2012.
Ÿ
T. Grajek, D. Karwowski, A. Łuczak, S. Maćkowiak, “A large barrel distortion in an acquisition system for multifocal
images extraction”, International Conference on Computer Vision and Graphics ICCVG, Warsaw, Poland, September 2012.
Ÿ
R. Ratajczak, M. Domański, K. Wegner, “Vehicle size estimation from stereoscopic video”, International Conference on
Systems, Signals and Image Processing IWSSIP, Vienna, Austria, April 2012.
Ÿ
J. Stankowski, M. Domański, O. Stankiewicz, J. Konieczny, J. Siast, K. Wegner, “Extensions of the HEVC technology for
efficient multiview video coding”, IEEE International Conference on Image Processing ICIP, Orlando, USA, Sept. 2012.
Ÿ
M. Domański, J. Konieczny, M. Kurc, R. Ratajczak, J. Siast, O. Stankiewicz, J. Stankowski, K. Wegner,
“3D video compression by coding of disoccluded regions”, IEEE International Conference on Image Processing ICIP,
Orlando, USA, September 2012.
Ÿ
W. Bandurski, “System fidelity factor in analysis of inverter-interconnect-inverter VLSI systems”, 2012 IEEE 16th Workshop
on Signal and Power Integrity SPI, Sorrento, Italy, 2012 (IEEExplore).
Ÿ
P. Górniak, W. Bandurski, “The new vector fitting approach to modeling of UWB channels containing convex obstacles,
European Conference on Antennas and Propagation EuCAP, Prague, Czech Republic, 2012 (IEEExplore).
Ÿ
M. Domański, K. Klimaszewski, O. Stankiewicz, S. Cancino-Suarez, “Enhancement of stereoscopic depth estimation by the
use of motion information”, 44th IEEE Southeastern Symposium on System Theory, Jacksonville, USA, March 2012.
Ÿ
M. Domański, T. Grajek, D. Karwowski, A. Łuczak, O. Stankiewicz, K. Wegner, “Coding of multiple video+depth using
HEVC technology and reduced representations of side views and depth maps”, 29th Picture Coding Symposium PCS,
Kraków, Poland, May 2012 (IEEExplore).
Ÿ
M. Domański, T. Grajek, “Fast watermarking of MPEG-4 AVC/H.264 encoded HDTV video bitstreams”, 29th IEEE Picture
Coding Symposium, PCS, Kraków, Poland, May 2012 (IEEExplore).
Ÿ
T. Żernicki, M. Bartkowiak, M. Domański, “Enhanced coding of high-frequency tonal components in MPEG-D USAC
through joint application of ESBR and sinusoidal modelling”, IEEE International Conf. on Acoustics, Speech, and Signal
Processing ICASSP, Prague, May 2011.
Ÿ
J. Konieczny, M. Domański, , “Extended inter-view direct mode for multiview video coding”, IEEE International Conf. on
Acoustics, Speech, and Signal Processing, ICASSP, Prague, May 2011.
Ÿ
J. Konieczny, M. Domański, “Depth-Enhanced Compression for 3D Video”, IEEE Visual Communications and Image
Processing, VCIP, Tainan, 2011.
28
A. Wardzińska, W. Bandurski, “VLSI low loss InterConnect scattering parameters”, European Conference on Circuit Theory
Ÿ
and Design ECCTD, Linkoping, Sweden, August 2011.
M. Domański, T. Grajek, D. Karwowski, K. Klimaszewski, J. Konieczny, M. Kurc, A. Łuczak, R. Ratajczak, J. Siast, O.
Ÿ
Stankiewicz, J. Stankowski, K. Wegner, “Technical desciption of Poznan University of Technology proposal for Call on 3D
video coding technology”, ISO/IEC JTC1/SC29/WG11 (MPEG) Doc. M22697, Geneva, Switzerland, Nov. 2011.
O. Stankiewicz, K. Wegner, M. Domański, “Estimation of temporally consistent depth maps using noise removal from
Ÿ
video”, ISO/IEC JTC1/SC29/WG11 (MPEG) Doc. M17612, Dresden, Germany, April 2010.
O. Stankiewicz, K. Wegner, M. Domański, “Error concealment for MVC and 3D video coding”, 28th Picture Coding
Ÿ
Symposium, Nagoya, December 2010 (IEEExplore).
T. Grajek, M. Domański, “New model of MPEG-4 AVC/H.264 video encoders”, IEEE International Conference on Image
Ÿ
Processing ICIP, Hong Kong, September 2010.
O. Stankiewicz, K. Wegner, M. Domański, Stereoscopic depth refinement by mid-level hypothesis, IEEE International
Ÿ
Conference on Multimedia & Expo ICME, Singapore, July 2010.
M. Domański, J. Marek, “Fine grain scalability of bitrate using AVC/H.264 bitstream truncation”, 27th Picture Coding
Ÿ
Symposium PCS, Chicago, 2009 (IEEExplore).
D. Karwowski, M. Domański, “Improved context-adaptive arithmetic coding in H.264/AVC”, European Signal Processing
Ÿ
Conference EUSIPCO, Glasgow, 2009.
P. Górniak, W. Bandurski, “Impulse response of the UWB channel with perfectly and non perfectly conducting convex
Ÿ
obstacles”, European Conference on Antennas and Propagation EuCAP, Berlin, 2009 (IEEExplore).
M. Domański, T. Grajek, K. Klimaszewski, M. Kurc, O. Stankiewicz, J. Stankowski, K. Wegner, "Poznań Multiview Video Test
Ÿ
Sequences and Camera Parameters", ISO/IEC JTC1/SC29/WG11 (MPEG) Doc. M17050, Xian, China, October 2009.
WIRELESS
Books
Ÿ
H. Bogucka, Cognitive radio technologies (in Polish), PWN Scientific Publishers, Warsaw, 2013.
Ÿ
K. Wesołowski, Introduction to Digital Communication Systems, John Wiley & Sons, Chichester, 2009.
Journals
Ÿ
R. Kotrys, M. Krasicki, P. Remlein, and P. Szulakiewicz, "Receiver Algorithms for Multi-stream Data Transmission in WLAN
802.11n Networks", Wireless Personal Communications, vol. 68, Issue 4, Feb. 2013.
Ÿ
M. Krasicki, “Comments on “Optimal Constellation Labeling for Iteratively Decoded Bit-Interleaved Space-Time Coded
Modulation””, IEEE Transactions on Information Theory, vol. 58, no. 7, 2012.
Ÿ
O. Holland, T. E. Dodgson, A. H. Aghvami, H. Bogucka, “Intra-Operator Dynamic Spectrum Management for Energy
Efficiency”, IEEE Communications Magazine, vol. 50, no. 9, 2012.
Ÿ
H. Bogucka, M. Parzy, P. Marquez, J.W. Mwangoka, T. Forde, “Secondary Spectrum Trading in TV White Spaces”, IEEE
Communications Magazine, vol. 50, no. 11, 2012.
29
Selected
in English
Dean’s Publications
address
(June 2013–January 2009)
H. Bogucka, “Efficient and Rational Spectrum Utilization in Opportunistic OFDMA Networks with Imperfect CSI: a Utility-Based TopŸ
Down Approach”, Wireless Communications&Mobile Computing, vol. 12, no. 5, 2012.
M. Parzy, H. Bogucka, “On-line spectrum auctions in TV white spaces for supporting mobile services – a practical manual”,
Ÿ
Telecommunications Policy, 2012.
P. Remlein, “Receiver algorithm for coded multiuser CPM systems”, Electronic Letters, vol. 48, no. 11, 2012.
Ÿ
H. Bogucka, “Protection of Primary Users in Dynamically Varying Radio Environment: Practical Solutions and Challenges”,
Ÿ
EURASIP Journal on Wireless Communications and Networking, no. 2012:23, 2012.
H. Bogucka, “Game Theory in Wireless Networks”, IEEE Communications Magazine, vol. 49, no. 8, 2011.
Ÿ
M. Sybis, “Log-MAP equivalent Chebyshev inequality based algorithm for turbo TCM decoding”, Electronic Letters, vol. 47, no.
Ÿ
18, 2011.
S. Papaharalabos, M. Sybis, P. Tyczka, P. T. Mathiopoulos, “Novel Generalized max∗ Approximation Method for Simplified
Ÿ
Decoding of Turbo and TTCM Codes”, Wireless Personal Communications, 2012.
R. Krenz, “Impact of Spatial Channel Reuse and Adaptive Modulation on Wireless Mesh Network Capacity”, Wireless Personal
Ÿ
Communications, 2012 (online).
K. Bąkowski, K. Wesołowski, “Change the Channel. A New Model for the IMT-Advanced System”, IEEE Vehicular Technology
Ÿ
Magazine, June 2011.
H. Bogucka, A. Conti, “Degrees of freedom for energy savings in practical adaptive wireless systems”, IEEE Communications
Ÿ
Magazine, June 2011.
S. Pagadarai, A. Kliks, H. Bogucka, A. M. Wyglinski, “Non-contiguous multicarrier waveforms in practical opportunistic wireless
Ÿ
systems”, EIT Radar, Sonar and Navigation, July 2011.
H. Bogucka, A. M. Wyglinski, S. Pagadarai, and A. Kliks, “Spectrally Agile Multicarrier Waveforms for Opportunistic Wireless
Ÿ
Access”, IEEE Communications Magazine, June 2011.
H. Bogucka, “Efficient and Rational Spectrum Utilization in Opportunistic OFDMA Networks with Imperfect CSI: a Utility-Based
Ÿ
Top-Down Approach”, Wireless Communications and Mobile Computing Journal, Wiley InterScience, DOI: 10.1002/wcm.973, 2010.
A. Kliks, H. Bogucka, “Improving Effectiveness of the Active Constellation Extension Method for PAPR Reduction in
Ÿ
Generalized Multicarrier Signals”, Wireless Personal Communications, DOI 10.1007/s11277-010-0025-5, 2010.
C. E. Sterian, K. Wesołowski, M. Paetzold, Y. Wu, “Reducing the Peak and Average Power for OFDM Systems Using QAM by
Ÿ
Constellation Shaping”, European Transactions on Telecommunications, no. 1, 2010.
A. Kliks, P. Sroka, M. Debbah, “Crystallized Rate Regions for MIMO Transmission”, EURASIP Journal on Wireless Communications
Ÿ
and Networking, vol. 2010, article ID 919072, doi:10.1155/2010/919072, 2010.
A. Kliks, P. Sroka, M. Debbah, “Crystallized Rate Regions for MIMO Transmission”, EURASIP Journal on Wireless Communications
Ÿ
and Networking, vol. 2010, article ID 919072, doi:10.1155/2010/919072, 2010.
Ÿ
M. Krasicki, P. Szulakiewicz, “Boosted MIMO system with power weighting”, Electronics Letters, vol. 46, no. 6, 2010.
Ÿ
R. Krenz, “On the application of decorrelating receiver to multicode system”, European Transactions on Telecommunications,
20: 625-629, 2009.
Ÿ
M. Krasicki, P. Szulakiewicz, “Boosted space-time diversity scheme for wireless communications”,
Electronics Letters, vol. 45, July 2009.
30
Ÿ
A. Langowski, “Time and Frequency Synchronisation In 4G OFDM Systems”, EURASIP Journal on Wireless Communications
and Networking, Special issue on Synchronisation in Wireless Communications, vol. 2009, article ID 641292, 2009.
Ÿ
M. Sybis, P. Tyczka, S. Papaharalabos, P. T. Mathiopoulos, “Reduced-Complexity Algorithms for Near-Optimal Decoding
of Turbo TCM Codes”, Electronics Letters, vol. 45, issue 5, 2009.
Ÿ
P. Remlein, D. Szłapka, “Genetic Algorithm Used in Search of Good Tailbiting Codes”, International Journal of Communication
Networks and Information Security (IJCNIS) vol. 1, no. 3, December 2009.
Conference proceedings
Ÿ
A. Kliks, “Comparison of Underlay and Overlay Spectrum Sharing Strategies in MISO Cognitive Channels”, ICST Conference on
Cognitive Radio Oriented Wireless Networks and Communications, CROWNCOM, Stockholm, Sweden, 18-20 June 2012.
Ÿ
O. Holland, H. Bogucka, M.G. di Benedetto, L. Gavrilovska, K. Chudaś, “Technical Work of the ICT-ACROPOLIS Network of
Excellence in its First Year”, IEEE Wireless Communications and Networking Conference, WCNC, Paris, France, 1-4 April, 2012.
Ÿ
M. Sybis, “Branch canceling technique for turbo TCM decoding”, European Wireless, Poznań, Poland, 11-13 April 2012.
Ÿ
M. Rodziewicz, “Network Coding Aided Device-to-Device Communications”, European Wireless, Poznań,
Poland, 11-13 Apr. 2012.
Ÿ
R. Krenz, “Wireless mesh network capacity analysis with spatial channel reuse and adaptive modulation”,
8th IEEE, IET Int. Symp. on Communication Systems, Networks and Digital Signal Processing, CSNDSP, Poznań, Poland, 2012.
Ÿ
P . Tyczka, “Decoding of Serial Concatenated Convolutional Codes Using Log-MAP Delta Algorithm”,
Proc. 8th IEEE, IET Int. Symp. on Commun. Systems, Networks and Digital Signal Processing, CSNDSP, Poznań, Poland, 2012.
Ÿ
R. Kotrys, M. Krasicki, P. Remlein, A. Stelter, P. Szulakiewicz, “OFDM Interfering Signal Rejection From 802.11ac Channel”,
IEEE 23rd International Symposium on Personal, Indoor and Mobile Radio Communications, PIMRC, 2011.
Ÿ
H. Bogucka, “Optimal Resource Pricing Coercing Social Behavior in Wireless Networks”, IEEE International Communications
Conference, ICC, Kyoto, Japan, 5-9 June 2011.
Ÿ
M. Krasicki, “Improved Labelling Diversity for Iteratively-Decoded Multi-Antenna Systems”, IEEE 7th International Wireless
Communications and Mobile Computing Conference, IWCMC, 2011.
Ÿ
K. Bąkowski, K. Wesołowski, “A Software Channel Simulator with Time Evolution of Parameters for the IMT-Advanced System”,
European Wireless, EW, Vienna, Austria, 27-29 April 2011.
Ÿ
M. Parzy, H. Bogucka, “Distributed Spectrum Allocation with the Cournot Competition”, invited paper, European Signal
Processing Conference, EUSIPCO, Aalborg, Denmark, 23-27 August 2010.
Ÿ
K. Wesołowski, “Application of MIMO and Network coding in two-way relaying applied in LTE”, Proc. of IEEE International
Symposium on Personal Indoor and Mobile Radio Communications, PIMRC, Istanbul, Turkey, 26-29 September 2010.
Ÿ
M. Sybis, P. Tyczka, S. Papaharalabos, P. T. Mathiopoulos, “Simplified Log-MAP Decoding with max* Approximation Based on
the Jensen Inequality”, Proc. 21st IEEE Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC 2010),
Istanbul, Turkey, 26-29 Sept. 2010.
Ÿ
M. Krasicki, “Boosted-OFDM scheme for 802.11n WLANs”, 6th International Wireless Communications and Mobile Computing
Conference, IWCMC, Caen, France, 28 June-2 July 2010.
Ÿ
M. Krasicki, “Cyclic Delay Diversity for 802.11n WLANs”, 14th International OFDM-Workshop, Hamburg, 2009
Ÿ
R. Krenz, “IEEE 802.16 Wireless Mesh Networks Capacity Estimation Using Collision Domains”, The Second International
Conference on Advances in Mesh Networks, MESH, Athens, Greece, 18-23 June 2009.
Ÿ
A. Langowski, K. Wesołowski, “SC-FDE narrow-band system with hard-decision turbo-equalisation”,
14th International OFDM-Workshop, Hamburg, 2009.
31
Selected
in English
Dean’s Publications
address
(June 2013–January 2009)
TESTING OF INTEGRATED CIRCUITS
Journals
Ÿ
J. Janicki, M. Kassab, G. Mrugalski, N. Mukherjee, J. Rajski, J. Tyszer, “EDT bandwidth management in SoC design”,
IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, vol. 31, no. 12, 2012.
Ÿ
B. Benware, G. Mrugalski, A. Pogiel, J. Rajski, J. Solecki, J. Tyszer, “Fault diagnosis with orthogonal compactors in scan-based
designs”, Journal of Electronic Testing, Theory and Applications, vol. 27, no. 4, 2011.
Ÿ
D. Czysz, G. Mrugalski, N. Mukherjee, J. Rajski, P. Szczerbicki, J. Tyszer, “Deterministic clustering of incompatible test cubes for
higher power-aware EDT compression”, IEEE Transactions on Computer Aided Design of Integrated Circuits and Systems,
vol. CAD-30, no. 8, August 2011.
Ÿ
N. Mukherjee, A. Pogiel, J. Rajski, J. Tyszer, “BIST-based fault diagnosis for read-only memories”, IEEE Transactions on Computer
Aided Design of Integrated Circuits and Systems, vol. CAD-30, No. 7, July 2011.
Ÿ
N. Mukherjee, G. Mrugalski, A. Pogiel, J. Rajski, J. Tyszer, “Ring generator: an ultimate linear feedback shift register”, IEEE
Computer, vol. 44, no. 6, 2011.
Ÿ
N. Mukherjee, A. Pogiel, J. Rajski, J. Tyszer, “High volume diagnosis in memory BIST based on compressed failure data”, IEEE
Transactions on Computer Aided Design of Integrated Circuits and Systems, vol. CAD-29, no. 3, 2010.
Ÿ
D. Czysz, G. Mrugalski, N. Mukherjee, J. Rajski, J. Tyszer, “On compaction utilizing inter and intra correlation of unknown states”,
IEEE Transactions on Computer Aided Design of Integrated Circuits and Systems, vol. CAD-29, no. 1, January 2010.
Ÿ
D. Czysz, M. Kassab, X. Lin, G. Mrugalski, J. Rajski, J. Tyszer, “Low power scan operation in test data compression environment”,
IEEE Transactions on Computer Aided Design of Integrated Circuits and Systems, vol. CAD-28, no. 11, November 2009.
Conference proceedings
Ÿ
G. Mrugalski, N. Mukherjee, J. Rajski, J. Solecki, J. Tyszer, “Low power programmable PRPG with enhanced fault coverage
gradient”, IEEE International Test Conference, Anaheim, CA, USA, 2012.
Ÿ
J. Janicki, G. Mrugalski, J. Rajski, J. Tyszer, “Bandwidth-aware test compression logic for SoC designs”,
IEEE European Test Symposium, Annecy, France, 2012.
Ÿ
J. Rajski, J. Tyszer, G. Mrugalski, B. Nadeau-Dostie, “Test generator with preselected toggling for low power built-in self-test”,
IEEE VLSI Test Symposium, Maui, Hawaii, USA, 2012.
Ÿ
X. Lin, E. Moghaddam, B. Nadeau-Dostie N. Mukherjee, J. Rajski, J. Tyszer, “Power aware embedded test”,
IEEE Asian Test Symposium, 2011.
Ÿ
M. Filipek, Y. Fukui, H. Iwata, G. Mrugalski, J. Rajski, M. Takakura, J. Tyszer, “Low power decompressor and PRPG
with constant value broadcast”, IEEE Asian Test Symposium, 2011.
Ÿ
G. Mrugalski, A. Pogiel, N. Mukherjee, J. Rajski, J. Tyszer, P. Urbanek, “Fault Diagnosis in Memory BIST Environment
with Non-March Tests”, IEEE Asian Test Symposium, 2011.
32
Ÿ
A. Dutta, J. Janicki, M. Kassab, G. Mrugalski, N. Mukherjee, J. Rajski, J. Tyszer, “EDT channel bandwidth management
in SoC designs with pattern-independent test access mechanism”, IEEE International Test Conference 2011, paper 14.1.
Ÿ
D. Czysz, G. Mrugalski, N. Mukherjee, J. Rajski, J. Tyszer, “Reduced ATE interface for higher test data compression”,
IEEE European Test Symposium, 2011.
Ÿ
J. Janicki, M. Kassab, G. Mrugalski, N. Mukherjee, J. Rajski, J. Tyszer, “Dynamic channel allocation for higher EDT compression
in SoC designs”, IEEE International Test Conference, paper 9.2, 2010.
Ÿ
D. Czysz, G. Mrugalski, N. Mukherjee, J. Rajski, P. Szczerbicki, J. Tyszer, “Low power compression of incompatible test cubes”,
IEEE International Test Conference, paper 24.1, 2010.
Ÿ
B. Beware, G. Mrugalski, A. Pogiel, J. Rajski, J. Solecki, J. Tyszer, “Diagnosis of failing scan cells through orthogonal response
compaction”, IEEE European Test Symposium, 2010.
Ÿ
D. Czysz, G. Mrugalski, N. Mukherjee, J. Rajski, J. Tyszer, “Compression based on deterministic test vector clustering
of incompatible test cubes”, IEEE International Test Conference, paper 9.2, 2009.
Ÿ
N. Mukherjee, A. Pogiel, J. Rajski, J. Tyszer, “Fault diagnosis for read-only memories”, IEEE International Test Conference,
paper 7.1, 2009.
Ÿ
D. Czysz, G. Mrugalski, N. Mukherjee, J. Rajski, J. Tyszer, “Highly X-tolerant selective compaction of test responses”,
IEEE VLSI Test Symposium, 2009.
Ÿ
N. Mukherjee, A Pogiel, J. Rajski, J. Tyszer, “High-speed on-chip event counters for embedded systems”,
IEEE International Conference on VLSI Design, 2009. May 1-5 2011, San Francisco.
Patent examples
Ÿ
J. Rajski, J. Tyszer, G. Mrugalski, D. Czysz, “Decompressors for low power decompression of test patterns”,
US patent 8,301,945, 2012.
Ÿ
J. Rajski, J. Tyszer, G. Mrugalski, X. Lin, M. Kassab, D. Czysz, “Low power scan testing techniques and apparatus”,
US patent 8,290,738, 2012.
Ÿ
J. Rajski, J. Tyszer, G. Mrugalski, N. Mukherjee, D. Czysz, “Selective per-cycle masking of scan chains for system level test”,
US patent 8,166,359, 2012.
Ÿ
J. Rajski, J. Tyszer, M. Kassab, N. Mukherjee, “Method and apparatus for selectively compacting test responses”,
US patent 8,108,743, 2012.
Ÿ
J. Rajski, J. Tyszer, M. Kassab, N. Mukherjee, “Method for synthesizing linear finite state machines”,
European patent EP 2 144 134 B1, 2012.
Ÿ
J. Rajski, J. Tyszer, M. N. Tamarapalli, “Phase shifter with reduced linear dependency”, US patent 7,805,651, 2010.
Ÿ
J. Rajski, J. Tyszer, G. Mrugalski, M. Kassab, W.-T. Cheng, “Multi-stage test response compactors”, US patent 7,818,644, 2010.
Ÿ
J. Rajski, J. Tyszer, G. Mrugalski, A. Pogiel, C. Wang, “Fault diagnosis of compressed test responses”, US patent 7,509,550, 2009.
Ÿ
J. Rajski, J. Tyszer, N. Tamarapalli, “Phase shifter with reduced linear dependency”, US patent 7,523,372, 2009.
33
Selected
in English
Dean’s Publications
address
(June 2013–January 2009)
SYSTEMS
Book
Ÿ
M. Wawrzyniak, Electric measurements of nano-junctions (in Polish), Publishing House of Poznan University of Technology, Poznań, 2012.
Journals
Ÿ
P. Makk, D. Tomaszewski, J. Martinek, Z. Balogh, Sz. Csonka, M. Wawrzyniak, M. Frei, L. Venkataraman, A. Halbritter, “Correlation
Analysis of Atomic and Single-Molecule Junction Conductance”, ACS NANO, vol. 6, no. 4, 2012.
Ÿ
K. Chybczyńska, M. Wróblewski, M. Wawrzyniak, B. Susła, “Conductance Quantization in Nb-Ti/Cu Alloys and BiSrCaCuO/PbAg
Superconducting Tapes”, Przegląd Elektrotechniczny, vol. 88, no. 10b, 2012.
Ÿ
W. Nawrocki, Y. M. Shukrinov, “Some quantum limits for scaling of electronic devices – estimations and measurements”,
Metrology and Measurement Systems, vol. 19, no. 3, 2012.
Ÿ
P. Makk, D. Tomaszewski, J. Martinek, Z. Balogh, Sz. Csonka, M. Wawrzyniak, M. Frei, L. Venkataraman, A. Halbritter, “Correlation
Analysis of Atomic and Single-Molecule Junction Conductance”, ACS NANO, vol. 6, no. 4, 2012.
Ÿ
Nawrocki W., “Electrical and Thermal Properties of Nanowires in Quantum Regime”, Reviews on Advanced Materials Science, vol. 23, 2010.
Ÿ
Nawrocki W., “The quantum SI – towards the new system of units”, Metrology and Measurement Systems, vol. 17, 2010.
Ÿ
Wawrzyniak M., Maćkowski M., Śniadecki Z., Idzikowski B., Martinek J., “Current-Voltage Characteristics of Nanowires Formed at the
Co–Ge99.99Ga0.01 Interface”, Acta Physica Polonica A, vol. 118, 2010.
Ÿ
Halbritter A., Makk, Mackowiak S., Csonka S., Wawrzyniak M., Martinek J., “Regular atomic narrowing of Ni, Fe and V nanowires
resolved by two-dimensonal Corelatopn Analysis”, Physical Review Letters, vol. 105, 2010.
Ÿ
M. Jessa, “Improving statistical properties of number sequences generated by multiplicative congruential pseudorandom generator”,
Advances in Electronics and Telecommunications, vol. 1, no. 2, November 2010.
Ÿ
W. Nawrocki W., M. Wawrzyniak, J. Pająkowski, “Transient states in electrical circuits with a nanowire”, Journal of Nanoscience and
Nanotechnology, vol. 9, 2009.
Ÿ
M. Jessa, “On some properties of even-symmetric and odd-symmetric dynamical systems”, Kybernetes, vol. 38, nos. 7/8, 2009.
Ÿ
M. Szorcz, B. Susła, M. Wawrzyniak, S. Lipiński, B. Idzikowski, “Conductance quantization in the melt-spun cubic RCu5 nanowires”,
Acta Physica Polonica A, vol. 115, 2009.
Ÿ
M. Wawrzyniak, J. Martinek, B. Susła, G. Ilnicki, “Correlation Histograms in Conductance Measurements of Nanowires Formed at
Semiconductor Interfaces”, Acta Physica Polonica A, vol. 115, 2009.
Ÿ
J. Lamperski, “Enabling technology for UDWDM access networks”, Photonics Letters of Poland, vol. 1 (1), 2009.
Ÿ
K. Malczewski, “MRI image enhancement by PROPELLER data fusion”, International Journal of Advanced Media and Communications,
vol. 3, nos. 1/2, 2009.
Ÿ
M. Jessa, “Improving statistical properties of number sequences generated by multiplicative congruential pseudorandom generator”,
Advances in Electronics and Telecommunications, vol. 1, no. 2, November 2010.
34
Conference proceedings
Ÿ
G. Ulacha, R. Stasiński, “Highly Effective Predictor Blending Method for Lossless Image Coding”, MELECON, 2010.
Ÿ
G. Ulacha, R. Stasiński, “Improving Neural Network Approach to Lossless Image Coding”, 29th Picture Coding Symposium, PCS,
Krakow, Poland, 07-09 May 2012.
Ÿ
Y. M. Shukrinov, P. Seidel, E. Ilichev, W. Nawrocki, M. Grajcar, I.P. Plecenik, I.R. Rahmonov, K. Kulikov, “Resonance features of coupled
Josephson junctions: radiation and shunting”, International Conference on Theoretical Physics Dubna-Nano 2012, Dubna, Russia, July,
2012 (publication in Journal of Physics Conference Series, vol. 393, no. 012020), 2012.
Ÿ
M. Jessa, M. Jaworski, High-Speed FPGA-Based Pseudorandom Generators with Extremely Long Periods, Proceedings of International
Conference on ReConFigurable Computing and FPGAs, ReConFig, Cancun, 13-15 Dec. 2010.
Ÿ
A. Dobrogowski, M. Jessa, M. Kasznia, K. Lange, “Generation of 1-pps timing signal controlled by NTP”, Joint Conference of the IEEE
International Frequency Control Symposium and European Frequency and Time Forum, San Francisco, 1-5 May 2011.
Ÿ
A. Dobrogowski, J. Lamperski, P. Stępczak, “UDWDM system with optical multiwavelength source”, Optical Fibers and Their
Applications (Proceedings Volume), Proceedings of SPIE Volume: 8010, 15 June 2011.
Ÿ
G. Ulacha, R. Stasiński, “Performance optimized predictor blending technique for lossless image coding”, Proc. IEEE ICASSP, Prague, May
2011.
Ÿ
P. Maćkowiak, R. Stasiński, “A Simple Method of Cortical Bone Thickness Evaluation Based on Radiographic Images for Osteoporosis
Investigation”, 2nd International Conference on Health Informatics, HEALTHINF, Porto, Portugal,14-17 January 2009.
Ÿ
M. Jessa, “Improving the Statistical Properties of Number Sequences Produced by Pseudorandom Generators Derived from the Rényi
Chaotic Map”, Proceedings of the 60th International Symposium on Circuits and Systems ISCAS, Taipei, 24-27 May 2009.
Ÿ
A. Dobrogowski, M. Kasznia, “On-line Estimation of Parameters of Time Series”, Proc. of XIX IMEKO World Congress, Lisbon, Portugal,
September 6-11 2009.
Ÿ
W. Nawrocki, M. Maćkowski, J. Pająkowski, “Smart sensors at temperature down to 77 K”, Proceedings of 22th Int. Cryogenic
Engineering Conference 2008, edited by Ho-Myung Chang et al, The Korea Inst. of Applied Superconductivity and Cryogenics, 2009.
Ÿ
A. Dobrogowski, M. Kasznia, “Joint real-time computation of Allan deviation, time deviation, and Hadamard deviation”, Proc. of 24th
European Frequency and Time Forum, Noordwijk, Netherlands, 13-16 April 2010.
Patent
Ÿ
J. Lamperski, “Układ do przesuwania częstotliwości optycznych”, PL patent no. 206092, Warszawa 11.08.2010.
35
Contact
Dean’sInformation
address
Faculty of Electronics & Telecommunications
www.et.put.poznan.pl
Dean’s Office:
ul. Piotrowo 3a
60 -965 Poznań
phone: +48 61 665 2293
fax: +48 61 665 2572
email: [email protected]
Faculty main building:
(chairs, laboratories, library)
ul. Polanka 3
60-965 Poznań
Chairs
KR
Wireless Communications
Multimedia Telecommunications
and Microelectronics
http://wcs.et.put.poznan.pl
phone: +48 61 665 39 30
Telecommunication
and Computer Networks
http://nss.et.put.poznan.pl
phone: +48 61 665 39 20
www.multimedia.edu.pl
phone: +48 61 665 39 00
STO
i
Telecommunication Systems
and Optoelectronics
http://kstio.com
phone: +48 61 665 39 10
Poznan University of Technology
www.put.edu.pl
36
www.put.poznan.pl
Prorector for Research and Science
pl. Marii Skłodowskiej-Curie 5
60-965 Poznań
phone: + 48 61 665 -3692,
fax: + 48 61 665 -3699
email: [email protected]
[email protected]