Řešitelský tým
Dipl.-Ing. Hans L. Hartnagel
Hans L. Hartnagel received the Dipl.-Ing. degree in 1960 from the Technical University of Aachen, W. Germany, and the Ph.D. and the Dr. Eng. degrees from the University of Sheffield, England, in 1964 and 1971, respectively.
After having worked for a short period with the industrial company Telefunken in Ulm, W. Germany regarding research and development of microwave tubes, he joined the Institute National des Sciences Appliquées, Villeurbanne, Rhône, France, as assistant, and then the Department of Electronic and Electrical Engineering of the University of Sheffield as a member of staff, namely initially as lecturer, later on as reader.
In January 1971, he became Professor of Electronic Engineering at the University of Newcastle upon Tyne, England. He developed there a new semiconductor technology centre involved with mircrowave integrations, particularly based on GaAs and related semiconductors.
Since October 1978, he has been the Professor of High Frequency Electronics at the Technical University of Darmstadt, Germany. He has been involved there with numerous microwave concepts including MEMS, opto-electronics, sensors and communication-signal processing circuitry. He was involved with various types of material developments particularly regarding epitaxial single crystal studies. In view of his materials interests, he became the Foundation Dean of the new faculty of material science in the T. University Darmstadt. He was therefore simultaneously a member of the electrical faculty and of the new one of material science.
He is the author of several books and numerous scientific papers on microwave semiconductor devices, and their technology and circuits. He has held many consulting positions, partly while on temporary leave of absence from his University positions. Some of the important ones were 6 months at the Japanese MITI Laboratory ETL, 5 months with the Avionics Laboratory in Dayton, Ohio, USA, part-time Chief Technical Advisor with UNDP for Indian Microelectronics for 2 years and consultant with the David Sarnoff Research Centre in Princeton , USA. 1994 he received the Dr. h.c. from the University of Rome “Tor Vergata” in Italy, and in 1999 the Dr. h.c. from the Technical University of Moldova, Kishinev. He received the Max Planck Prize together with Prof. H. Hasegawa for their joint pioneering contributions on surface and interface technology of compound semiconductors.
He is now Emeritus Professor there but very active still in research and some limited teaching (particularly at the yearly International Summer School “Microwaves and Lightwaves”). His present primary interest concerns THz-generation by various new ideas such as ballistic electron resonances and optical techniques to generate sub-mm-waves; he is involved in security techniques using THz signals, in intermodulation effects in communication systems and many related modern issues.
[1] DRAGOMAN, M., TAKACS, A., MULLER, A.A., HARTNAGEL, H., PLANA, R., GRENIER, K., DUBIC, D. Nanoelectromechanical switches based on carbon nanotubes for microwave and millimetre waves, Applied Physics Letters, 90 (2007), doi:10.1063/1.2712774.
[2] VICENTE, C., WOLK, D., HARTNAGEL, H., GIMENO, B., BORIA, V.E., RABOSO, D. Experimental analysis of passive intermodulation at waveguide flange bolted connections, IEEE Transactions on Microwave Theory and Techniques, 55 (2007), p. 1018–1028.
[3] HARGREAVES, S., BIGNELL, L.J., LEWIS, R.A., SIGMUND, J., HARTNAGEL, H. New modes of THz generation by low-temperature-grown GaAsSb, Solid State Electronics, 53 (2009), p. 160–165.
[4] SEMENENKO, M., EVTUKH, A., YOLMAZOGLU, O., HARTNAGEL, H., PAVLIDIS, D. A novel method to form conducting channels in SiOx(Si) films for field emission application, Journal of Applied Physics, 107 (2010), doi:10.1063/1.3273394.
[5] DRAGOMAN, D., DRAGOMAN, M., HARTNAGEL, H. Terahertz generation based on an optically pumped ballistic electron wave swing device, Journal of Applied Physics, 108 (2010), doi:10.1063/1.3462439.
Dipl. Ing. Dr. techn. Michal Ries
Michal Ries is currently a research supervisor at Department of Radioelectronic at Brno University of Technology. He received his B.S. and M.S. degrees in 2002 and 2004 at the Slovak University of Technology, Faculty of Electrical Engineering and Information Technology in Bratislava and his Dr. techn. (PhD) on Electrical Engineering from Vienna University of Technology in 2008. Before he joined TU Vienna he was working for Siemens PSE as system engineer. His research interests include perceptual video and audiovisual quality evaluation, video and audiovisual metric design, monitoring of QoS and QoE in wireless networks, video streaming optimization in wireless network, video quality optimization for HD IPTV services.
[1] Ries, M.; Gardlo, B.; , "Audiovisual quality estimation for mobile video services," Selected Areas in Communications, IEEE Journal on , vol.28, no.3, pp.501-509, Apr. 2010, doi: 10.1109/JSAC.2010.100420.
[2] M. Ries, "End to End Video Quality Measurements,” in: Video and Multimedia Transmissions over Cellular Networks: Analysis, Modeling and Optimization in Live 3G Mobile Networks, Editor John Wiley & Sons, Markus Rupp, Sep. 2009.
[3] Patent: M. Ries, O. Nemethova, M. Rupp, "Method and system for video quality estimation"; Patent: Österreich, No. PCT/AT2006/000539; filed: 12-22-2006.
prof. Ing. Stanislav Hanus, CSc.
Mobilní komunikace: vyšetřování koexistence mobilních systémů, modely mobilních sítí a jejich dílčích částí. Teorie obvodů: modely po částech lineárních soustav a jejich experimentální ověřování.
[1] KEJÍK, P.; HANUS, S. Simulator for radio resources management functions in CDMA systems. Simulation Modelling Practice and Theory. 2011, vol. 19, no. 2, p. 752–761. ISSN 1569-190X. IF = 0,799.
[2] KEJÍK, P.; HANUS, S. Comparison of Fuzzy Logic and Genetic Algorithm Based Admission Control Strategies for UMTS System. Radioengineering. 2010. 19(1). p. 6 - 10. ISSN 1210-2512. IF = 0.312
[3] KEJÍK, P.; HANUS, S. Enhanced receivers for interference cancellation in 3G systems. Radioengineering. 2009. 18(4). p. 477 - 484. ISSN 1210-2512. IF = 0.312
prof. Ing. Miroslav Kasal, CSc.
Počítačové modelování mikrovlnných obvodů a antén, modelování komunikačních systémů, zvláště družicových
[1] VÁGNER, P.; KASAL, M. Design of Novel Microstrip Lowpass Filter Using Defected Ground Structure. Microwave and Optical Technology Letters, 2007, č. 1, s. 10-13. ISSN: 0895- 2477.
[2] ŠPAČEK, J.; KASAL, M. The Low Rate Telemetry Transmission Simulator. Radioengineering, 2007, roč. 16, č. 4, s. 24-32. ISSN: 1210- 2512.
[3] VÁGNER, P.; KASAL, M. A novel microstrip low-pass filter design method using square- shaped defected ground structure. Microwave and Optical Technology Letters, 2008, roč. 50, č. 9, s. 2458-2462. ISSN: 0895- 2477
prof. Ing. Lubomír Brančík, CSc.
Teorie elektronických obvodů, numerické metody pro analýzu elektronických obvodů, počítačové metody simulace elektronických obvodů, problematika integrity signálů.
[1] BRANČÍK, L. Utilization of NILTs in simulation of nonlinear systems described by Volterra series. Przeglad Elektrotechniczny, 2010, vol. 86, no. 1, p. 68–70. ISSN: 0033-2097. IF = 0.196.
[2] BRANČÍK, L. Error analysis at numerical inversion of multidimensional Laplace transforms based on complex Fourier series approximation. IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, 2011, vol. E94-A, no. 3, p. 999–1001. ISSN: 0916-8508. IF = 0.281.
[3] BRANČÍK, L., ŠEVČÍK, B. Computer simulation of nonuniform MTLs via implicit Wendroff and state-variable methods. Radioengineering, 2011, vol. 20, no. 1, p. 221–227. ISSN: 1210-2512. IF = 0.503.
[4] BRANČÍK, L. Time and Laplace-domain methods for MTL transient and sensitivity analysis. COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 2011, vol. 30, no. 4, p. 1205–1223. ISSN: 0332-1649. IF = 0.386.
doc. Ing. Tomáš Frýza, Ph.D.
Mikroprocesorová technika, číslicová technika, signálové procesory, programování, zpracování obrazových signálů, komprese signálů, webové aplikace.
[1] FRÝZA, T.; HANUS, S. Algorithms for Fast Computing of the 3D-DCT Transform. Radioengineering. 2003. 12(1). p. 23 - 26. ISSN 1210-2512.
[2] FRÝZA, T.; HANUS, S. Image Compression Algorithms Optimized for MATLAB. Radioengineering. 2003. 12(4). p. 18 - 20. ISSN 1210-2512.
[3] FRYZA, T. A Complete Video Coding Chain Based on Multi-Dimensional Discrete Cosine Transform. Radioengineering, 2010, vol. 19, no. 3, p. 421–428. ISSN 1210-2512. IF = 0.312
prof. Dr. Ing. Zdeněk Kolka
Počítačové modelování elektronických obvodů, analogové a číslicové obvody, vestavěné systémy, komunikace
[1] BIOLEK, D., BIOLKOVÁ, V., KOLKA, Z. Current-mode biquad employing single CDTA. Indian Journal of Pure & Applied Physics, 2009, vol. 47, no. 7, p. 535-537. ISSN: 0019-5596. IF = 0.246
[2] BIOLEK, D., BAJER, J., BIOLKOVÁ, V., KOLKA, Z., KUBÍČEK, M. Z Copy-Controlled Gain-Current Differencing Buffered Amplifier and its applications. International Journal of Circuit Theory and Applications, 2010, published online: March 22, 2010 in Wiley Interscience (www.interscience.wiley.com). DOI: 10.1002/cta.632. ISSN: 0098-9886. IF = 2.011
[3] KUBÍČEK, M., KOLKA, Z. Blind Oversampling Data Recovery with Low Hardware Complexity. Radioengineering, 2010, vol. 19, no. 1, p. 74–78. ISSN: 1210-2512. IF = 0.312
doc. Ing. Tomáš Kratochvíl, Ph.D.
Digitální rozhlasové a televizní vysílání, přenos a měření signálů DVB a DAB, hodnocení kvality obrazu a zvuku, nízkofrekvenční a audio elektronika.
[1] KRATOCHVÍL, T. Hierarchical Modulation in DVB-T/H Mobile TV Transmission. In Plass, S., Dammann, A., Kaiser S., Fazel, K (eds.). MultiCarrier Systems & Solutions 2009. Lecture Notes in Electrical Engineering. Volume 41. ISSN 1876-1100. Lecture Notes in Electrical Engineering. Herrsching, Germany: Springer Netherlands, 2009. s. 334-341. ISBN: 978-90-481-2529-6.
[2] KRATOCHVÍL, T. DVB-T/H Portable and Mobile TV Performance in the New Channel Profiles Modes. In Mehmood, R.; Cerqueira, E.; Piesiewicz, R.; Chlamtac, I. (Eds.) : Communications Infrastructure, Systems and Applications. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering (LNICST). London, UK: Springer, Institute for Computer Science, SocialInformatics and Telecommunications Engineering, 2009. s. 164-173. ISBN: 978-3-642-11283-6.
[3] ŠTUKAVEC, R.; KRATOCHVÍL, T. Simulation and measurement of the transmission distortions of the digital television DVB-T/H. Part 1: Modulator for digital terrestrial television. Radioengineering, 2010, vol. 19, no. 2, p. 338–346. ISSN: 1210-2512. IF = 0.312.
[4] ŠTUKAVEC, R.; KRATOCHVÍL, T. Simulation and measurement of the transmission distortions of the digital television DVB-T/H. Part 2: Hierarchical modulation performance. Radioengineering, 2010, vol. 19, no. 3, p. 429–436. ISSN: 1210-2512. IF = 0.312.
[5] POLÁK, L.; KRATOCHVÍL, T. Simulation and measurement of the transmission distortions of the digital television DVB-T/H. Part 3: Transmission in fading channels. Radioengineering, 2010, vol. 19, no. 4, p. 703–711. ISSN: 1210-2512. IF = 0.312.
doc. Ing. Roman Maršálek, Ph.D.
Teorie rádiové komunikace, aplikované zpracování signálů pro komunikační systémy, modelování rádiových a mobilních systémů, implementace v programovatelných obvodech
[1] MARŠÁLEK, R. On the Reduced Complexity Interleaving Method for OFDM PAPR Reduction. Radioengineering. 2006. 15(3). p. 49 - 53. ISSN 1210-2512.
[2] MARŠÁLEK, R.; POMĚNKOVÁ, J. Testování významnosti periodicity průmyslové výroby pomocí R.A. Fisherova testu. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis. LVIII(3), 2010. (11 p.). ISSN 1211-8516
[3] AL-SHERBAZ, A.; KUSELER, T.; ADAMS, C.; MARŠÁLEK, R.; POVALAČ, K. WiMAX Parameters Adaptation Through A Baseband Processor Using Discrete Particle Swarm Method. To appear in International Journal of Microwave and Wireless Technologies. 2010 p. 1 - 7. ISSN 1759-0787.
doc. Ing. Jiří Petržela, Ph.D.
Počítačové simulace a modelování analogových obvodů, nelineární dynamika, teorie chaosu, aplikace optimalizací na problematiku syntézy obvodů
[1] PETRŽELA, J., HANUS, S., KOLKA, Z. Simple Chaotic Oscillator: From Mathematical Model to Practical Experiments. Radioengineering, 2006, vol. 15, no. 1, p. 6–11. ISSN: 1210-2512. IF = 0.312
[2] PETRŽELA, J., SLEZÁK, J. Conservative Chaos Generators with CCII+ Based on Mathematical Model of Nonlinear Oscillator. Radioengineering, 2008, vol. 17, no. 3, p. 19–24. ISSN: 1210-2512. IF = 0.312
[3] ŠOTNER, R., PETRŽELA, J., SLEZÁK, J. Current-Controlled Current-Mode Universal Biquad Employing Multi-Output Transcoductors, Radioengineering, 2009, vol. 18, no. 3, p. 285–294. ISSN: 1210-2512. IF = 0.312
Doc. RNDr. Jitka Poměnková, Ph.D.
Jitka Pomenkova is currently a Senior Researcher at Department of Radioelectronic at Brno University of Technology. She received her M.S. degrees in 1997 in mathematics – history and B.S. degree in 1999 in Mathematical Methodology in Economy at the Silesian Univerzity in Opava, Philosophical-Scientific Faculty. Subsequently she achieved her RNDr. and Ph.D. at Ostrava University, Scientific Faculty in Applied Mathematics. She is also habilitated in Econometrics and Operational Research from 2010. From 2002 – 2008, Dr. Pomenkova was Assistant professor at Department of Statistics and Operational Analysis, Mendel University in Brno. From 2008 – 2011 she was Asociated proffesor at Department of Finance. Her research interests are focused on Applied Statistic and include analysis of time series in time, frequency and time-frequency domain perspectives. She is also interested in monitoring of QoS and QoE in wireless networks and interconnection of Telecommunications and Microeconomics.
[1] POMĚNKOVÁ, J. Remarks to optimum kernels and boundary optimum kernels. Applications of Mathematics. 2008. sv. 53, č. 4, s. 305-317. ISSN 0862-7940.
[2] POMĚNKOVÁ, J. An alternative Approach to the Dating of Business Cycle: Nonparametric Kernel Estimation. Prague Economic Papers, No. 3, 2010, pp. 251 – 272
[3] STEHLÍKOVÁ, B., TIRPÁKOVÁ, A., POMĚNKOVÁ, J., MARKECHOVÁ, D. Metodologie výzkumu a statistická inference. 9. vyd. Brno: Folia univ. agric. et silvic. Mendel. Brun., 2009. II. ISBN 978-80-7375-362-7.
prof. Ing. Aleš Prokeš, Ph.D.
Nerovnoměrné vzorkování a rekonstrukce signálů, optické metody měření rychlosti pomocí prostorové filtrace, optimalizace a návrh optických přijímačů a vysílačů pro bezkabelové optické spoje (BOS), vliv atmosférického přenosového prostředí na optický svazek, vyhodnoceni dostupnosti a spolehlivosti BOS, perspektivní modulační techniky pro komunikační systémy
[1] BOBULA, M., DANĚK, K., PROKEŠ, A. Implementation of Industrial Narrow Band Communication System into SDR Concept. Radioengineering, 2008, vol. 17, no. 4, p. 86–92. ISSN 1210-2512. IF = 0.312.
[2] BOBULA, M., DANĚK, K., PROKEŠ, A. Simplified Frame and Symbol Synchronization for 4-CPFSK with h=0.25. Radioengineering, 2008, vol. 17, no. 2, p. 108–114. ISSN 1210-2512. IF = 0.312.
[3] PROKEŠ, A. Modeling of Atmospheric Turbulence Effect on Terrestrial FSO Link. Radioengineering, 2009, vol. 18, no. 1, p. 42–47. ISSN 1210-2512. IF = 0.312.
[4] PROKEŠ, A. Atmospheric Effects on Availability of Free Space Optics Systems. Optical Engineering, 2009, vol. 48, no. 6, 066001. ISSN 0091-3286. IF = 0.757
prof. Dr. Ing. Zbyněk Raida
Počítačové modelování mikrovlnných obvodů a antén, modelování komunikačních systémů, optimalizace, aplikace umělých neuronových sítí
[1] RAIDA, Z. Time domain design of radiating structures. In Antennas: Parameters, Models and Applications. Ed.: Albert I. Ferrero. New York: Nova Science Publishers, 2009, p. 263–280, ISBN: 978-160692-463-1.
[2] RAIDA, Z. Boosting antenna research at Brno University of Technology. In Proceedings of the fourth European Conference on Antennas and propagation EuCAP 2010. 1. Barcelona: European Association of Antennas and Propagation, 2010. ISBN: 978-84-7653-472-4.
[3] KOUDELKA, V., RAIDA, Z. Evaluation of electromagnetic immunity of layered structures by neural networks. IET Proceedings - Microwaves, Antennas and Propagation, 2011, vol. 5, no. 2, p. 152–159. ISSN: 1751-8725.
doc. Ing. Jiří Šebesta, Ph.D.
Softwarové rádio, komunikační systémy, družicové komunikace, radiolokační systémy, navigace
[1] RUMÁNEK, J., ŠEBESTA, J. New Channel Coding Methods for Satellite Communication. Radioengineering, 2010. Vol. 19, no. 1, p. 155-161. ISSN 1210-2512.
[2] ŠEBESTA, J. Discrete-time Phase and Delay Locked Loops Analyses in Tracking Mode. International Journal of Electronics, Circuits and Systems (IJECS), 2008. Vol. 1, no. 4., p. 207 - 210. ISSN 1307-4156.
[3] ŠEBESTA, J., KASAL, M. Effective DSP Methods of PSK Feedback Timing Synchronization. Radioengineering, 2005. Vol. 14, no. 3. p. 37 - 40. ISSN 1210-2512
prof. Ing. Milan Sigmund, CSc.
Číslicové zpracování signálů, impulzová a číslicová technika, rozpoznávání obrazců, zpracování řečových signálů, automatické rozpoznávání mluvčích
[1] SIGMUND, M. Information mining from speech signal, In Zaher, A. (ed.) Recent Advances in Signal Processing. In-Tech Publishing, Wien, 2009, p. 297-319. ISBN 978-953-307-002-5
[2] ZELINKA, P., SIGMUND, M. Hierarchical classification tree modeling of nonstationary noise for robust speech recognition. Information Technology and Control, 2010, vol. 39, no. 3, p. 202-210, ISSN 1392-124X, IF = 0.638
[3] SIGMUND, M., ZELINKA, P. Analysis of voiced speech excitation due to alcohol intoxication. Information Technology and Control, 2011, vol. 40, no. 2, p. 145-150, ISSN 1392-124X, IF = 0.638
prof. Ing. Otakar Wilfert, CSc.
Optické komunikace, atmosférické optické spoje, laserová technika, optická radiolokace
[1] HENNIGER, H.; WILFERT, O. An Introduction to Free- space Optical Communication. Radioengineering, 2010, vol. 19, no. 2, p. 203-212. ISSN: 1210- 2512. IF = 0.312
[2] DORDOVÁ, L.; WILFERT, O. Calculation and Comparison of Turbulence Attenuation by Different Methods. Radioengineering, 2010, vol. 19, no. 1, p. 162-167. ISSN: 1210- 2512. IF = 0.312
[3] FIŠER, O.; WILFERT, O. Novel processing of Tipping-Bucket Rain Gauge Records - Examples from Czech Republic. Atmospheric Research, 2009, vol. 92, no. 1, p. 283-288. ISSN: 0169- 8095. IF = 1.786
Dr.techn. Ing Vojtěch Derbek
Radiofrekvenční identifikace, bezdrátové komunikační systémy, automatizace RF měření a testování, aplikované číslicové zpracování signálů
[1] DERBEK, V., PREISHUBER-PFLUEGL, J., PISTAUER, M., HOLTSTIEGE, T. Method of receiver sensitivity improvement for RFID measurement and test instruments. In Proceedings of the Third International EURASIP Workshop on RFID Technology, 2010, Cartagena (Spain).
[2] STEGER, C., JANEK, , A., WEISS, R., DERBEK, V., JANTSCHER, M., PREISHUBER-PFLUEGL, J., PISTAUER, M., Simulators and emulators for different abstraction layers of UHF RFID systems. In Proceedings of RFID Systems: Research Trends and Challenges. Edited book, Wiley Series in Wireless Communications and Mobile Computing, August 2010, ISBN: 978-0-470-74602-8
Ing. Lucie Hudcová, Ph.D.
Optické bezkabelové spoje, fotonika a optické komunikace, atmosférické přenosové prostředí v optické oblasti spektra.
[1] DORDOVÁ, L., WILFERT, O. Calculation and Comparison of Turbulence Attenuation by Different Methods. Radioengineering, 2010, vol. 19, no. 1, p. 162–167. ISSN: 1210-2512. IF = 0.312
Ing. Jiří Dřínovský, Ph.D.
Elektromagnetická kompatibilita, počítačové modelování odrušovacích filtrů, automatizace měřicích procesů, problematika vysokofrekvenčních měření.
[1] KEJÍK, Z., DŘÍNOVSKÝ, J., RŮŽEK, V., Estimation of the EMI Filter Circuitry from the Insertion Loss Characteristics. Radioengineering, 2010, vol. 19, no. 2, p. 313–319. ISSN: 1210-2512. IF = 0.312.
[2] DŘÍNOVSKÝ, J.; KEJÍK, Z. Electromagnetic Shielding Efficiency Measurement of Composite Materials. Measurement Science Review, 2009, vol. 9, no. 4, p. 109-112. ISSN: 1335- 8871.
[3] DŘÍNOVSKÝ, J.; SVAČINA, J.; RAIDA, Z. Simple Models of EMI Filters for Low Frequency Range. Radioengineering, 2008, vol. 17, no. 2, p. 8–14. ISSN: 1210 2512. IF = 0.312.
Ing. Zbyněk Fedra, Ph.D.
Počítačové modelování komunikačních systémů, optimalizace, programování a HW implementace.
[1] FEDRA, Z. MARŠÁLEK, R. ŠEBESTA, V. Chip interleaving and its optimization for PAPR reduction in MC-CDMA. Radioengineering, 2007, vol. 16, no. 4, p. 19-23. ISSN: 1210-2512. IF = 0.312
[2] BLUMENSTEIN, J. FEDRA, Z. The PAPR and Simple PAPR Reduction of the 2D Spreading Based Communication Systems. Radioengineering, 2010, vol. 19,no. 1, p. 27-31. ISSN: 1210- 2512. IF = 0.312
Ing. Michal Kubíček, Ph.D.
Programovatelné logické obvody, optimalizace digitálních subsystémů, vysokorychlostní přenos dat
[1] KUBÍČEK, M., KOLKA, Z. Blind Oversampling Data Recovery with Low Hardware Complexity. Radioengineering, 2010, vol. 19, no. 1, p. 74–78. ISSN: 1210-2512. IF = 0.312
[2] BIOLEK, D.; BAJER, J.; BIOLKOVÁ, V.; KOLKA, Z.; KUBÍČEK, M. Z Copy - Controlled Gain - Current Differencing Buffered Amplifier and its applications. International Journal of Circuit Theory and Applications, 2010, roč. 2010, č. 6, s. 222-235. ISSN: 0098- 9886. IF = 0.84
Ing. Jaroslav Láčík, Ph.D.
Numerické modelování, návrh antén, mikrovlnných obvodů, odražečů, optimalizace
[1] LÁČÍK, J., Laguerre polynomials’ scheme of transient analysis: Scale factor and number of temporal basis functions, Radioengineering, 2009, vol. 18, no. 1, p. 23–28. ISSN: 1210-2512. IF = 0.312.
[2] LÁČÍK, J., LAGER, I.E., RAIDA, Z. Multicriteria optimization of antennas in time domain, Radioengineering, 2010, vol. 19, no. 1, p. 105–110.ISSN: 1210-2512. IF = 0.312.
[3] LÁČÍK, J., Filtering technique for stabilization of marching-on-in-time method, Radioengineering, 2010, vol. 19, no. 2, p. 290–298. ISSN: 1210-2512. IF = 0.312.
Ing. Zbyněk Lukeš, Ph.D.
Počítačové modelování a návrh antén a mikrovlnných obvodů, optimalizace
[1] LUKES, Z., LACIK, J., RAIDA, Z. Modeling and Optimizing Antennas for Rotational Spectroscopy Applications. Radioengineering, ISSN: 1210-2512, 2006, vol. 15, iss. 4, pp. 91-95.
[2] LUKES, Z., LACIK, J., RAIDA, Z. Optimized wideband horn antenna for terahertz spectroscopy applications. JOURNAL OF MOLECULAR SPECTROSCOPY, ISSN: 00222852, 2007, vol. 12, iss. 241-246, pp. 18.
[3] LUKEŠ, Z.; LÁČÍK, J.; RAIDA, Z. Linearly Tapered Slot-line Antenna Array for Quasi-Optical Molecular Spectroscopy, Microwave and Optical Technology Letters, Vol 52, Issue 5, pp. 1043-1046,2010 ISSN 0895-2477
Ing. Michal Pokorný, Ph.D.
Počítačové modelování polovodičových struktur, mikrovlnných obvodů, antén, anténních systémů, atmosférických spojů a jejich optimalizace
[1] POKORNÝ, M.; RAIDA, Z. Planar Tri-Band Antenna Design, Radioengineering, 2008, vol. 17, no. 1, p. 28–36. ISSN: 1210-2512. IF = 0.312
[2] POKORNÝ, M.; RAIDA, Z. Modeling of Microwave Semiconductor Diodes, Radioengineering, 2008, vol. 17, no. 3, p. 47–52. ISSN: 1210-2512. IF = 0.312
[3] POKORNÝ, M.; RAIDA, Z. Transmission line on semiconductor substrate with distributed amplification, Radioengineering, 2010, vol. 19, no. 2, p. 307–312. ISSN: 1210-2512. IF = 0.312
Ing. Jan Prokopec, Ph.D.
Bezdrátové a mobilní komunikace, simulace a modelování fyzické vrstvy mobilních sítí, číslicové zpracování signálů, konfigurace a správa výpočetních serverů
[1] PROKOPEC, J., KRATOCHVÍL, T. Testing of DVB-H Mobile Terminals Capability. Radioengineering, 2007, roč. 16, č. 4, s. 7-11. ISSN: 1210-2512.IF = 0.312
[2] MARŠÁLEK, R., PROKEŠ, A., PROKOPEC, J. Experimental workplace for the evaluation of power amplifier linearization algorithms. WSEAS Transactions on Computers, 2004, roč. 2004, č. 6, s. 1977-1980. ISSN: 1109-2750
Ing. Martin Slanina, Ph.D.
Výzkum v oblasti digitální televizní techniky a videotechniky, vývoj metrik pro objektivní hodnocení kvality digitálních videosekvencí, zpracování obrazových signálů
[1] KRATOCHVÍL, T., SLANINA, M. Digital video image quality. In Digital Video. Ed.: Floriano de Rango. Vienna: INTECH, 2010, s. 487–500, ISBN: 978-953-7619-70-1.
[2] KRATOCHVÍL, T., SLANINA, M. The DVB channel coding application using the DSP development board MDS TM-13 IREF. Radioengineering, 2004, vol. 13, no. 4, p. 14-17. ISSN: 1210-2512. IF = 0.312.
[3] SLANINA, M., ŘÍČNÝ, V. Estimating PSNR in high definition H.264/AVC video sequences using artificial neural networks. Radioengineering, 2008, vol. 17, no. 3, p. 103–108. ISSN: 1210-2512. IF = 0.312
Ing. Tomáš Urbanec, Ph.D.
Počítačové modelování mikrovlnných obvodů, návrh mikrovlnných aktivních obvodů, aplikace speciálních metod vektorových obvodových měření
[1] URBANEC, T.; SVAČINA, J. Software Support for Six-Port Measurement System. In Measurement Science Review. 2004. 2004(4). p.1-5. ISSN 1335-8871.
[2] URBANEC, T. Novel Approach for Wideband VNA by Sixport Principle. In International Journal of Electronics, Circuits and Systems. 2008. 1(4). p.203-206. ISSN 2070-3988
Ing. Petr Vágner, Ph.D.
Vysokofrekvenční a mikrovlnná technika (návrh, simulace, realizace a měření pasivních a aktivních obvodů), návrh antén, bezdrátové komunikační systémy, satelitní systémy
[1] VÁGNER, P., KUTÍN, P., X-Band PLL Synthesizer. Radioengineering, 2006, vol. 15, no. 1, p. 13–16. ISSN: 1210-2512. IF = 0.312
[2] VÁGNER, P., KASAL, M., Design of Novel Microstrip Lowpass Filter Using Defected Ground Structure. Microwave and Optical Technology Letters, 2008, vol. 50, no. 1, p. 10 to 13. ISSN: 0895-2477. IF = 0.467
[3] VÁGNER, P., KASAL, M., A Novel Microstrip Low-pass Filter Design Method Using Square-shaped Defected Ground Structure. Microwave and Optical Technology Letters, 2008, vol. 50, no. 9, p. 2458 to 2462. ISSN: 0895-2477. IF = 0.467
Ing. Ondřej Baran, Ph.D.
Vysokofrekvenční a mikrovlnná technika, počítačové modelování komunikačních systémů, výzkum vlivu fázového šumu v komunikačních systémech.
[1] BARAN, O.; KASAL, M.; VÁGNER, P.; URBANEC, T. Modeling of the Phase Noise Influence in the General M-PSK System. In Proceedings of 5th International Conference on Recent Advances in Space Technologies. Istanbul: 2011. s. 393-398. ISBN: 978-1-4244-9615- 0.
[2] BARAN, O.; KASAL, M. Modeling of the Simultaneous Influence of the Thermal Noise and the Phase Noise in Space Communication Systems. Radioengineering, 2010, roč. 19, č. 4, s. 618-626. ISSN: 1210- 2512.
[3] BARAN, O.; KASAL, M. Modeling of the Phase Noise in Space Communication Systems. Radioengineering, 2010, roč. 19, č. 1, s. 141-148. ISSN: 1210- 2512.
Ing. Peter Kovács, Ph.D.
Počítačové modelování mikrovlnných obvodů a antén, optimalizace, návrh periodických struktur s elektromagnetickým zádržným pásmem.
[1] KOVÁCS, P.; RAIDA, Z. Global Evolutionary Algorithms in the Design of Electromagnetic Band Gap Structures with Suppressed Surface Waves Propagation. Radioengineering. 2010. 19(1). p. 122 - 128. ISSN 1210-2512.
[2] KOVÁCS, P.; JILKOVÁ, J.; RAIDA, Z. Design and optimization of electromagnetic band gap surfaces by different global evolutionary algorithms. In Eight World Congress on Structural and Multidisciplinary Optimization. Lisboa, Portugal, International Society for Structural and Multidisciplionary Optimization. 2009. p. 90 - 94. ISBN 978-989-20-1554-5.
[3] KOVÁCS, P.; RAIDA, Z. Parametric study of mushroom-like and planar periodic structures in terms of simultaneous AMC and EBG properties. Radioengineering. 2008. 17(4). p. 19 - 24. ISSN 1210-2512.
Ing. Jan Puskely, Ph.D.
Antenní měření v blízké poli antén, návrh antén a mikrovlnných obvodů, optimalizace.
[1] PUSKELY, J.; NOVÁČEK, Z. Application of the Global Optimization Approaches To Planar Near- Field Antenna Phaseless Measurements. Radioengineering, 2009, roč. 18, č. 1, s. 9-17. ISSN: 1210- 2512.
[2] PUSKELY, J.; NOVÁČEK, Z. Exploiting of the Compression Methods for Reconstruction of the Antenna Far-Field Using Only Amplitude Near- Field Measurements. Radioengineering, 2010, roč. 19, č. 2, s. 299-306. ISSN: 1210- 2512.
Ing. Tomáš Götthans
Nelineární dynamika, teorie chaosu, paralelizace aplikaci, aplikace optimalizací, digitální korekce vlivu nelinearit.
[1] GÖTTHANS, T., PETRŽELA, J. Experimental study of the sampled labyrinth chaos. Radioengineering, 2011, vol. 20, no. 4. ISSN: 1210-2512. IF=0.503 [ACCEPTED]
[2] PETRŽELA, J., GÖTTHANS, T. Chaotic oscillators with single polynomial nonlinearity and digital sampled dynamics. Przeglad Elektrotechniczny, 2011, vol. 3, no. 1, p. 161-163. ISSN: 0033- 2097. IF=0.196
[3] PETRŽELA, J., GÖTTHANS, T., HRUBOŠ, Z. Modeling deterministic chaos using electronic circuits. Radioengineering, 2011, vol. 20, no. 2, p. 438-444. ISSN: 1210- 2512. IF=0.503
Ing. Tomáš Mikulášek
Počítačové modelování a optimalizace antén a mikrovlnných obvodů.
[1] MIKULÁŠEK, T., LÁČÍK, J. Microstrip patch antenna fed by substrate integrated waveguide. In Proceedings of the International Conference on Electromagnetics in Advanced Applications ICEAA 2011. Torino, Italy: COREP, 2011, p. 1209-1212. ISBN: 978-1-61284-977-5.
[2] MIKULÁŠEK, T. Microstrip patch antennas fed by substrate integrated waveguide. In Proceedings of the 21st International Travelling Summer School 2011. Darmstadt, Germany: Technische Universität Darmstadt, 2011.
[3] MIKULÁŠEK, T. Dvoupásmová aktivní anténa s kruhovou polarizací. Elektrorevue - Internetový časopis [http://www.elektrorevue.cz], 2011, č. 1, s. 1-5. ISSN: 1213-1539.
Ing. Ladislav Polák
Digitální televizní technika, hodnocení kvality obrazu, komunikační a mobilní systémy, satelitní a pozemní mobilní televize, standardy DVB druhé generace.
[1] POLÁK, L., KRATOCHVÍL, T. Simulation and measurement of the transmission distortions of the digital television DVB-T/H. Part 3: Transmission in fading channels. Radioengineering, 2010, vol. 19, no. 4, p. 703-711. ISSN: 1210-2512. IF = 0.312 (2009)
[2] POLÁK, L., KRATOCHVÍL, T. Simulation of the DVB- H channel coding and transmission in MATLAB. In Proceedings of 20th International Conference Radioelektronika 2010. Brno (Czech Republic), 2010, p. 57-60. ISBN: 978-1-4244-6319-0.
[3] POLÁK, L., KRATOCHVÍL, T. DVB-H and DVB-SH – A performance and evaluation of transmission in fading channels. In Proceedings of 34th International Conference on Telecommunications and Signal Processing (TSP 2011). Budapest (Hungary), 2011, p. 549-553. ISBN: 978-1-4577-1409-2.
Ing. Juraj Poliak
Optoelektronika, kvantová a laserová technika, optické komunikace, atmosférické optické spoje, modelování laserového svazku.
[1] WILFERT, O., KOLKA, Z., POLIAK, J. Influence of optical elements on the laser beam profile. In Proceedings of the Optics & Photonics 2011 Conference on Free-Space and Atmospheric Laser Communications XI. San Diego, 2011.
[2] POLIAK, J., KOMRSKA, J., WILFERT, O. Wave effects in FSO link and their influence on transmitted laser beam. In Proceedings of 23rd Conference Opticke komunikace 2011. Praha, 2011.
Ing. Aleš Povalač
Radiofrekvenční identifikace (RFID), softwarově definované rádio, mikroprocesorová technika a embedded systémy, programování.
[1] POVALAČ, A., ŠEBESTA, J. Phase difference of arrival distance estimation for RFID tags in frequency domain. In Proceedings of the 2011 IEEE International Conference on RFID-Technologies and Applications. Sitges, Barcelona, Spain: 2011. p. 180-185. ISBN: 978-1-4577-0026-2.
[2] POVALAČ, A., ZAMAZAL, M., ŠEBESTA, J. Firmware design for a multi-protocol UHF RFID reader. In Proceedings of the 20th International Conference RADIOELEKTRONIKA 2010. Brno: 2010. p. 199-202. ISBN: 978-1-4244-6319-0.
[3] POVALAČ, A. RFI21FW; Firmware for compact RFID reader RFI21 (result of the project no. FR-TI1/483). Metra Blansko, a.s. Pražská 7/1602, 678 49 Blansko. (software)
[4] POVALAČ, A. PK3000LT; Řídicí jednotka svářecího stroje pro režimy MMA/TIG (HS18157001). Firma Omicron svářecí stroje, Zahradníčkova 1375/2, 674 01 Třebíč. (prototyp)
[5] POVALAČ, A., RUMÁNEK, J., ŠEBESTA, J. ZMS2; Zoning Measurement Software (result of the project no. HS18901200). INTRIPLE, a.s. Podnikatelská 550, 190 11 Praha 9 - Běchovice. (software)
[6] POVALAČ, A. TN5024; Nabíječka trakčních akumulátorů s pulsním měřením (HS18157001). Firma Omicron svářecí stroje, Zahradníčkova 1375/2, 674 01 Třebíč. (prototyp)
Ing. Roman Šotner
Aplikace moderních aktivních bloků a jejich počítačové modelování a simulace, aktivní kmitočtové filtry a oscilátory, obvody v proudovém módu, nf. audiotechnika
[1] ŠOTNER, R.; JEŘÁBEK, J.; PETRŽELA, J.; DOSTÁL, T.; VRBA, K. Electronically tunable simple oscillator based on single-output and multiple- output transconductor. IEICE Electronics Express, 2009, vol. 6 (2009), no. 20, p. 1476-1482. ISSN: 1349-2543. IF = 0.510.
[2] ŠOTNER, R.; HRUBOŠ, Z.; SLEZÁK, J.; DOSTÁL, T. Simply adjustable sinusoidal oscillator based on negative three-port current conveyors. Radioengineering, 2010, vol. 19, no. 3, p. 446-453. ISSN: 1210-2512. IF = 0.503.
[3] ŠOTNER, R.; JEŘÁBEK, J.; ŠEVČÍK, B.; DOSTÁL, T.; VRBA, K. Novel solution of notch/all-pass filter with special electronic adjusting of attenuation in the stop band. Elektronika Ir Elektrotechnika, 2011, vol. 16 (2011), no. 7 (113), p. 37-42. ISSN: 1392-1215. IF = 0.659.