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Instytut Radiokomunikacji - Politechnika Poznańska
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Poznan University of Technology

Institute of Radiocommunications

About

Institute of Radiocommunications

The Institute of Radiocommunications is an organizational unit of the Faculty of Computing and Telecommunications of the Poznan University of Technology, with its activities focused on scientific research, higher education and research supervision in the area of wireless communications. The Institute has modern scientific infrastructure, specialized laboratories and experienced staff. It cooperates with businesses, and implements research and development projects funded by the industry, national agencies and European Commission. Research results are published in prestigious scientific books and journals, and are subject of license agreements and patents. Students and doctorate candidates are also involved in scientific research and projects, pursuing their bachelor-, master- and doctoral degrees under the supervision of the Institute’s scientific staff. The Institute cooperates with universities and research-and-development centers from Europe, Asia, Africa and North America, and its employees are members and leaders of important organizations in the area of radiocommunication.

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Bulletin January 2023
Institute seminar - Summer 2024

 

Zaspół Instytutu Radiokomunikacji

News

The main Polish conference on Radiocommunications and Teleinformatics (KRiT 2024), will be held on September 11-13, 2024 at the Poznan University of Technology.

The National Conference on Radiocommunications and Teleinformatics (KRiT 2024), the main Polish conference in the above-mentioned fields, will be held on September 11-13, 2024 at the Poznan University of Technology. The organizers of the conference are the Institute of Radiocommunications and the Institute of Teleinformatic Networks of the Poznan University of Technology and the Association of Telecommunications Engineers (SIT).

Created: 2023-11-20
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Research

Cellular Networks

The Institute pursues research on contemporary and future radio access networks, in particular on the fourth-, fifth- and sixth-generation cellular systems (4G, 5G and 6G). It concerns new physical-, data-link control-, medium-access control-, and network-layer techniques for achieving key performance indicators (KPI) stated for 4G, 5G and 6G. New solutions, including non-orthogonal multiple access (NOMA) using diverse power allocation, and space-division multiple access (SDMA) using adaptive antennas, are investigated. Moreover, effective algorithms for radio-resource management in cells of various types, and for interference coordination in pico- and femto-cells are also the subjects of research. An important direction of research is efficient duplex transmission in relay links, as well as flexible selection of relaying nodes for quality-of-service improvement in cellular networks. The investigated topic related to specific challenging applications is ultra-reliable low latency communication (URLLC), one of the main segments of 5G systems.

Satellite Communications

The increasing number of applications of nanosatellites, e.g., in the Cubesat form factor, requires new types of radio links delivering high-throughput and high-reliability communications currently not available for nanosatellites. Research in the area of satellite communications focuses on baseband/physical layer, as well as data-link-layer algorithms and protocols which can be used for the development of cheap communication modules implemented using the Software Defined Radio (SDR) technique. In particular, energy-efficient modulation types are investigated, since their application is crucial when limited power is available onboard the nanosatellites. Due to the tight radio link budget, advanced synchronization and channel coding schemes are considered as well. The selected solutions are implemented using the Software Defined Radio technique, based on off-the-shelf SDR platforms and general-purpose processors, as well as dedicated hardware including FPGA chips and integrated transceivers.
See more information about satellite connectivity.

Cognitive Radio Systems

Research in the area of cognitive radio technologies includes theoretical studies and experimental trials on the acquisition of context information related to the radio environment, machine learning methods for the improvement of the quality of this information, as well as the principles of signal transmission in radio communication networks using it. In particular, the research focuses on autonomous and cooperative sensing and spectrum sharing policies based on either centralized or distributed coordination of dynamic spectrum access. Radio Environment Maps (REMs) are being investigated for their use in cognitive radio systems for the reduction of interference between systems utilizing a range of the radio frequency band. Moreover, physical-layer algorithms are being investigated that increase the spectral efficiency of systems with frequency-neighboring signal spectra.

V2X Communication Systems

Communication between vehicles and vehicles and infrastructure (V2X) which is one of the significant topics of 5G development, is a subject of investigations in the Institute. Part of the research was performed in the framework of cooperation with Nokia Solutions and Networks. The research team investigated traffic safety, meant as the minimization of vehicle collision probability, in the case of vehicle platoons (convoys) when a wireless communication system (e.g., IEEE 802.11p) is applied within a moving platoon. The team considered vehicle control algorithms ensuring reliability and string stability from the system theory point of view. The next research topic is lengthening the vehicle platoon by applying so-called virtual communication leaders. Subsequent research topics are related to radio resource management algorithms aiming at the minimization of packet collision probability by applying Mode 3 and 4 LTE system specialized in V2X communications. Recent investigations focus on databases and edge intelligence to support dynamic spectrum access for vehicle platooning.

Unmanned Aerial Vehicle Communications

Research related to communication with unmanned aerial vehicles (UAV) concentrate on air to ground radio channel modeling for both long-range (LOS/NLOS) and medium-range (LOS) UAV communication systems, physical layer solutions for control and telemetry radio links with high reliability and high-speed data links, as well as energy-efficient solutions for UAV communications. Original synchronization, modulation/demodulation and channel coding/decoding methods and algorithms are developed and investigated for the physical layer of UAV communication systems. The selected solutions are implemented using the Software Defined Radio (SDR) technique, based on off-the-shelf SDR platforms and general-purpose processors, as well as dedicated hardware including FPGA chips and integrated transceivers.

Green Communications

An important area of research in the Institute are the so-called green communications, which encompass techniques aiming at high energy efficiency in the next-generation communication and computing networks. These techniques are designed to minimize the energy per successfully transmitted and processed information unit (bit), whereas all network segments are analyzed, i.e., end-user equipment, wireless part (radio access network), wireline part (core network, Internet, long-distance optical links) and data centers implementing computational tasks. Optimization of these separate segments is considered, as well as joint optimization of the tasks transmission, offloading and computing in the network of various configurations based on edge-, cloud- and fog computing. Moreover, brain-inspired energy-efficient communication networking is a key topic of research in the Institute.

Wireless Local Area Networks

In the Institute, research is conducted towards an increase of the transmission rate, performance quality and security in Wireless Local Area Networks (WLANs) including networks of the mesh architecture. One of the recent topics of interest is the use of evolutionary algorithms to combat multiuser interference. Moreover, iterative decoding reception is investigated, as well as novel diversity techniques exploiting features of signal labelling. Recently, a pioneering method has been developed for physical-layer data recipient addressing, which consists in tuning some parameters of the wireless signal. Research related to wireless security includes anomaly detection in dense sensor networks and new authentication protocols (using Physical Layer Security technology) in 5G networks. Finally, new signal modulation techniques are investigated for application in Visible Light Communications.

Physical-Layer Algorithms

The Institute pursues research on physical layer algorithms in modern mobile radiocommunication systems. They are connected with multitone modulation using orthogonal (OFDM) and non-orthogonal subcarriers (FBMC) and non-contiguous, fragmented spectrum bands. Research work is directed towards the minimization of the out-of-band emission, reduction of non-linear distortions, reliable reception of signals and synchronization algorithms. Another field of studies encompasses channel coding using various types of error correction codes, namely, convolutional codes, turbo codes, selected types of LDPC codes and polar codes with several decoding algorithms. Moreover, bit-interleaved coded modulation with iterative decoding is investigated. Applications and improvements of transmission and reception diversity techniques are also being explored, in particular Multiple-Input, Multiple-Output (MIMO) and massive MIMO (M-MIMO) technologies, and beamforming algorithms in antenna matrices.

VLSI Testing

Beginning with the introduction of commercial manufacturing of integrated circuits, electronic testing has a history of almost 60 years, and its importance cannot be overestimated. The unprecedented proliferation of digital devices in telematics, medicine, defense systems, or transportation, clearly underlines the extreme significance of their test quality. Failure to find defective circuits that constitute the heart of many life-critical or mission-critical mechanisms may lead to severe consequences. The goal of our group is to create new methods to allow the development of computer-aided tools supporting automated test generation, test data compression, built-in self-test, and design for testability. The corresponding research results are presented in prestigious publications and numerous US patents. Furthermore, several solutions have been commercialized, primarily by our industrial partner Mentor, A Siemens Business, with the introduction of award-winning VLSI test technologies, often the first solutions of this kind on the market.

 

The number of scientific publications of the employees of the Institute of Radiocommunications shown covers the period from 2013 to the present and is determined on the basis of information from the Scientific Information System (SIN) of the Poznań University of Technology.

514

Publications*

53

Projects

108

Patents

21

Employees
Books
Selected publications

Our research equipment

Laboratories

Projects

International projects:

  • PASSIONATE (https://passionate.webs.tsc.uc3m.es) – Physics-based wireless AI providing scalability and efficiency” – international project no. CHIST-ERA-22-WAI-04 within the CHIST-ERA program, funded by National Science Centre based on agreement no. 2023/05/Y/ST7/00002 (2023-2026)
  • COST CA20120 (https://interactca20120.org/) – Intelligence-Enabling Radio Communications for Seamless Inclusive Interactions (INTERACT), EU Horizon 2020 Programme project (COST action) (2021-2025)
  • FAUST -"Fog Communication, Computing And Control for SUStainable Future of ICT” (FAUST), project no. PL-TW/V/3/2018 for Polish-Taiwanese joint research funded by National Centre for Research and Development (2018-2021)
  • CERTAIN - "Cognitive Engine for Radio environmenT Awareness In Networks of the future” (CERTAIN) DAINA (DAINA 1) project no. 2017/27/L/ST7/03166 for Polish-Lithuanian research cooperation funded by National Science Centre (2018-2021)
  • COST CA15104 (http://www.iracon.org/) – Inclusive Radio Communication Networks for 5G and beyond (IRACON), EU Horizon 2020 Programme project (COST action) (2016-2020)
  • COHERENT (Contract no. 671639 https://5g-ppp.eu/coherent/ ) – Coordinated control and spectrum management for 5G heterogeneous radio access networks - ICT-14-2014 (LEIT) EU Horizon 2020 Programme project (2015-2017)
  • METIS (CNECT-ICT- 317669, www.metis2020.com) - Mobile and wireless communications Enablers for Twenty-twenty (2020) Information Society – EU 7th Framework Programme project (2012-2015)
  • NEWCOM# (Contract no. 318306) – Network of Excellence in Wireless Communication - EU 7th Framework Programme project (2012-2015)
  • SoC testing for limited pin count and enhanced throughput – research project funded by Semiconductor Research Corporation, USA (2011-2013)
  • ACROPOLIS (Contract no. 257626 ) – Advanced coexistence technologies for radio optimisation in licenced and unlicensed spectrum - EU 7th Framework Programme project (Network of Excellence) (2010-2013)
  • COGEU (Contract no. 248560) – Cognitive radio systems for efficient sharing of TV white spaces in European context - EU 7th Framework Programme project (2010-2012)
  • COST IC0902 (http://acts.ing.uniroma1.it/IC0902/) – Cognitive Radio and Networking for Cooperative Coexistence of Heterogeneous Wireless Networks – COST action project (2009-2013)
  • GALAPAGOS - GALileo-bAsed seamless and robust Positioning Applications for loGistics Optimization proceSses – EU 7th Framework Programme project (2009-2011)
  • NEWCOM++(Contract no. 216715) – Network of Excellence in Wireless Communication - 7th Framework Programme project (2008-2010)
  • WINNER+ – Wireless World Initiative New Radio+ - EU EUREKA/CELTIC Programme project (2008-2010)
  • URANUS (IST- 027960) – Universal Radio-Link Platform For Efficient User-Centric Access - EU 6th Framework Programme project (2006-2008)
  • WINNER II (IST-4-027756) - Wireless World Initiative New Radio II - 6th Framework Programme integrated project (2006 -2007)
  • NEWCOM (Contract no. 507325) – Network of Excellence in Wireless Communication - 6th Framework Programme project (2004-2007)
  • Train2Cert - Vocational Training for Certification in ICT - EU Leonardo da Vinci Programme project (2006-2009)
  • InCert - International Certificates of Excellence In Selected Areas of ICT – EU Leonardo da Vinci Programme project (2006-2009)
  • VIPNet - VDSL Technology For Improved Performance In The Access Network – EU EUREKA Programme project, (2004 -2006)
  • Bilateral Polish-Greek project “Flexible Radio For Indoor Wireless LAN”, within bilateral agreement between Greek and Polish governments on Technical and Scientific Cooperation signed Nov. 9th, 1998, (2004 – 2005)
  • WINNER (IST-2003-507581) – Wireless World Initiative New Radio - 6th Framework Programme integrated project (2003 -2005)
  • INVOCOM (http://www.invocom.et.put.poznan.pl/) - Internet-based vocational training of communication students, engineers, and technicians – EU Leonardo da Vinci Programme project (2000-2006)
  • WIND-FLEX (IST-1999-10025) – Wireless Indoor Flexible Modem Architectures - 5th Framework Programme project (1999-2003)

National projects:

  • "Utilization of the Machine Learning and Radio Environment Maps for Management of User-Centric Massive MIMO Network " PRELUDIUM (PRELUDIUM 21) project no. 2022/45/N/ST7/01930, funded by National Science Centre (2023-2026)
  • "Context-information aware usage of intelligent antenna matrices and holography for wireless signal transmissions", OPUS (OPUS 22) project no. 2021/43/B/ST7/01365 funded by National Science Centre (2022-2026)
  • "Cross-layer design of ultra spectrally- and energy-efficient 6G system aware of radio front-end nonlinearity", OPUS (OPUS 21) project no 2021/41/B/ST7/00136 funded by National Science Centre (2022-2025)
  • "Fresh and Green Cellular IoT Edge Computing Networks" PRELUDIUM (PRELUDIUM 20) project no. 2021/41/N/ST7/03941, funded by National Science Centre (2022-2024)
  • "Radio spectrum occupancy detection using federated machine learning", PRELUDIUM (PRELUDIUM 20) project no. 2021/41/N/ST7/01298 funded by National Science Centre (2022-2023).
  • "Advanced methods and techniques for identification and counteracting cyber attacks on 5G access network and applications" (5gSTAR), project no. CYBERSECIDENT/487845/IV/NCBR/2021 funded within the 4th CyberSecIdent programme - Cybersecurity and e-Identity by National Centre for Research and Development (2021-2024)
  • "Universal nanosatellite platform for research, experimental and commercial type hosted payload missions", POIR.01.01.01-00-1211/19 project funded by National Centre for Research and Development (2020-2023)
  • "Utilization of rich context information for wireless communications in vehicle platooning”, OPUS (OPUS 15) project no. 2018/29/B/ST7/01241 funded by National Science Centre (2019-2022)
  • "Brain-Inspired Massive Radio Communication Networks – BioNets”, OPUS (OPUS 12) project no. 2016/23/B/ST7/03937 funded by National Science Centre (2017-2020)
  • "Waveform adaptivity for effective spectrum sharing in small cell networks”, SONATA (SONATA 9) project no. 2015/17/D/ST7/04078 funded by National Science Centre (2016-2019)
  • "Energy-Aware and Computationally-Intelligent Cooperative Wireless Networks – EcoNets”, OPUS (OPUS 6) project no. 2013/11/B/ST7/01168 funded by National Science Centre (2014-2017)
  • "Reception methods for cognitive radio system utilizing NC-OFDM modulation”, PRELUDIUM (PRELUDIUM 3) project no. 2012/05/N/ST7/00164 funded by National Science Centre (2013-2016)
  • "New physical- and MAC-layer algorithms in Vehicle-to-Vehicle (V2V) and Vehicle-to-Infrastructure (V2I) radio communication systems” –OPUS (OPUS 1) project no. 2011/01/B/ST7/06544 funded by National Science Centre (2011-2014)
  • "Rate-increasing methods for above 1 Gb/s WLANs”, OPUS (OPUS 1) project no. 2011/01/B/ST7/06578 funded by National Science Centre (2011-2014)
  • "Cognitive Radio and Networking for Cooperative Coexistence of Heterogeneous Wireless Networks”, COST-action cooperation project no. 779/N-COST/2010/0 funded by the Ministry of Science and Higher Education and by the National Science Centre (2010-2013)
  • "Innovative data transmission methods for WLAN” - project no. N N517 554539, funded by the Ministry of Science and Higher Education (2010-2012)
  • "Reception algorithms for signals with adaptive multicarrier modulation with non-orthogonal subcarriers”, supervisor grant no. N N517 177637 funded by the Ministry of Science and Higher Education (2009-2010)

Cooperation with industry and business environment

The Institute’s researchers cooperate with national and international companies, implementing projects and research framework agreements with Mentor, A Siemens Business (formerly Mentor Graphics Corporation) in Wilsonville, OR, USA, Nokia Wrocław R&D in Poland, Huawei Technologies Sweden AB, Fairspectrum in Helsinki, Finland, Military Aviation Plant no. 2 in Bydgoszcz, Poland, and others.

For students

The teaching offer of the Institute of Radiocommunications includes courses (lectures, classes, laboratory classes, projects and seminars) in wireless communications on three levels: elementary, advanced and expert. In lectures, students are taught the theoretical aspects of wireless data transmission, signal processing, development of wireless networks and systems, and software engineering. Theoretical knowledge on radiocommunication technologies and wireless networks is supplemented with practical experience obtained during laboratory and project tasks.

Thanks to thorough knowledge and practical experience in the area of mobile and wireless technologies, graduates of Information and Communication Technologies find jobs with wireless network operators, electronics and telecommunication equipment manufacturers (e.g. Nokia, Samsung, Alcatel, Mentor, A Siemens Business, COMARCH), radiocommunication service providers (e.g. wireless Internet providers, WLAN providers and administrators, etc.), and other ICT companies; students also launch their own start-up businesses.

Mobile and Wireless Technologies
BSc and Msc Diploma Theses
List of courses
Students Scientific Club Spektrum
Student Excursions

 

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Doctoral students
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Where to find us

ul. Polanka 3
61-131 Poznań, Polska

Email address

office_cr@put.poznan.pl

Phone

Tel.: +48 61 665 3930
Fax: +48 61 665 3823