R&D Laboratory

The main scientific publications over the last years

Content:
  1. Papers published in 2000
  2. Papers published in 2002
  3. Papers published in 2004
  4. Papers published in 2005
  5. Papers published in 2006
  6. Papers published in 2007
  7. Papers published in 2008
  8. Papers published in 2009
  9. Papers published in 2010
  10. Papers published in 2011
  11. Papers published in 2012
  12. Papers published in 2013
  13. Papers published in 2014
  14. Papers published in 2015
  15. Papers published in 2016
  16. Papers published in 2017
  17. Papers published in 2018
  18. Papers published in 2019
  19. Papers published in 2020
  20. Papers published in 2021
  21. Papers published in 2022
  22. Papers published in 2023

2000

  1. V.I.Mordachev. Automated Double-Frequency Testing Technique for Mapping Receiver Interference Responses. IEEE Trans. on EMC, vol.42, No2, May 2000, pp.213-225.
  2. A.Budai, K.Kovalev, V.Kozel, V.Mordachev, V.Nikonov. Generalized EMC Analysis of Air Navigation and GSM Networks in Belarus.- 15th Intern. Wroclaw Symp. And Exhib. on EMC, Poland, Wroclaw, June 27-30, 2000, P.683-686.
  3. V.Mordachev. Mathematical Models for Radiosignals Dynamic Range Prediction in Space-Scattered Mobile Radiocommunication Networks. The IEEE Semi Annual VTC Fall 2000, Boston, Sept. 24-28, 2000, 8 p.
  4. S.L. Loyka, J.R. Mosig, "New Behavioral-Level Simulation Technique for RF/Microwave Applications. Part I: Basic Concepts", International Journal of RF and Microwave Computer-Aided Engineering, vol. 10, no. 4, July 2000, pp. 221-237.
  5. S.L. Loyka, J.R. Mosig, "New Behavioral-Level Simulation Technique for RF/Microwave Applications. Part II: Approximation of Nonlinear Transfer Functions", International Journal of RF and Microwave Computer-Aided Engineering, vol. 10, no. 4, July 2000, pp. 238-252.
  6. V.Mordachev. Radiosignals Dynamic Range in Space-Scattered Mobile Radiocommunication Networks. 15th Intern. Wroclaw Symp. And Exhib. on EMC, Poland, Wroclaw, June 27-30, 2000, P.331-335.

2002

  1. V.Mordachev, P.Litvinko. Expert System for EMC Analysis Taking Into Account Nonlinear Interference.- 16th International Wroclaw Symposium And Exhibition on EMC, Poland, Wroclaw, June 25-28, 2002, pp.265-270.
  2. V.I.Mordachev, V.M. Kozel, M.N. Yatsynovich. Automation of Frequency Assignment in Cellular Comunication Networks Taking Into Account Intrasystem Elctromagnetic Compatibility Requirements.- 16th International Wroclaw Symposium And Exhibition on EMC, Poland, Wroclaw, June 25-28, 2002, pp.271-274.
  3. A.Budai, V.Kozel, K.Kovalev, V.Mordachev, M.Yatsynovich. Peculiarities of Land Mobile Service Spectrum Usage in Spectrum Bands Shared With The Fixed and Radionavigation Services.- 16th International Wroclaw Symposium And Exhibition on EMC, Poland, Wroclaw, June 25-28, 2002, pp.253-256.

2004

  1. V.Kozel, K.Kovalev, V.Mordachev. EMC support features for digital TV broadcasting systems in DVB-T standard and for systems of radar and radar navigation services in the frequency band of 790-862 MHz. - 17th International Wroclaw Symposium And Exhibition on EMC, Poland, Wroclaw, June 29-July 1, 2004, pp.238-24160.
  2. V.Mordachev. Ecological characteristics of cellular network: relationship with its radio frequency recourse and intrasystem EMC. - 17th International Wroclaw Symposium And Exhibition on EMC, Poland, Wroclaw, June 29-July 1, 2004, pp.55-60.
  3. V.I.Mordachev, P.A.Litvinko. Nonlinear sensor method for EMC/EMI analysis in severe electromagnetic environment using EMC-Analyzer expert system. - 17th International Wroclaw Symposium And Exhibition on EMC, Poland, Wroclaw, June 29-July 1, 2004, pp.119-122.
  4. V.I.Mordachev, M.N. Yatsinovich. Impact of the base stations random space location in the cellular communication system on its coverage parameters. - 17th International Wroclaw Symposium And Exhibition on EMC, Poland, Wroclaw, June 29-July 1, 2004, pp.234-237.
  5. V.Mordachev, V.Kozel. Limiting the RF Resource Allocated to a Cellular Network as a Means to Ensure its Ecological Safety. - Proceedings of the International Symposium on Electromagnetic Compatibility "EMC Europe 2004", Netherlands, Eindhoven, Sept. 6-10, 2004, pp.92-97.

2005

  1. V.Mordachev. Discrete Nonlinear EMC Analysis: principles, capabilities and application restrictions.- Proceedings VI International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, Saint-Petersburg, Russia, June 21 - 24, 2005, pp. 145-148.

2006

  1. V.Mordachev, E.Sinkevich. EMC Analysis of co-site RF/Microwave systems: simulation of signal demodulation. - International Symposium on Electromagnetic Compatibility "EMC Europe 2006", Spain, Barcelona, Sept. 4-8, 2006, p.624-629.
  2. V.I.Mordachev, P.A.Litvinko. Advanced options of expert system "EMC-Analyzer". - International Symposium on Electromagnetic Compatibility "EMC Europe 2006", Spain, Barcelona, Sept. 4-8, 2006, p.635-640.

2007

  1. V.I.Mordachev. Principles of system ecology for cellular radio. - Proceedings of the VII-th International symposium on electromagnetic compatibility and electromagnetic ecology, Saint-Petersburg, June 26-29, 2007, pp.323-326.
  2. V.I.Mordachev. Environmental Safety of Cellular Networks Taking Into Consideration Electromagnetic Background Produced by Systems of Public Information Service.- Proceedings of the VII-th International symposium on electromagnetic compatibility and electromagnetic ecology, Saint-Petersburg, June 26-29, 2007, pp.11-15.
  3. V.I.Mordachev, V.M.Kozel. Comparative analysis of environmental safety of cellular radio networks with FDMA/TDMA and CDMA.- Proceedings of the VII-th International symposium on electromagnetic compatibility and electromagnetic ecology, Saint-Petersburg, June 26-29, 2007, pp.327-330.
  4. V.I.Mordachev, E.V.Sinkevich. Discrete technology of electromagnetic compatibility analysis at the system level: features and applications overview.- Proceedings of the International conference on metrology and measurement "ICMM 2007", Vol.1, Beijing, September 5-7, 2007, pp.57-63.
  5. V.I.Mordachev. Generalized EMC characteristics of radio equipment.- Proceedings of the International conference on metrology and measurement "ICMM 2007", Vol.2, Beijing, September 5-7, 2007, pp.57-66.
  6. E.V.Sinkevich. Validation of the Hammerstein-type behavioral model for the diode envelope demodulator.- Proceedings of the VII-th International symposium on electromagnetic compatibility and electromagnetic ecology, Saint-Petersburg, June 26-29, 2007, pp.162-165.
  7. E.V.Sinkevich. Discrete nonlinear simulation of radio receivers for electromagnetic compatibility analysis and design: estimation of the signal-to-interference ratio.- Proceedings of the VII-th International symposium on electromagnetic compatibility and electromagnetic ecology, Saint-Petersburg, June 26-29, 2007, pp.166-169.

2008

  1. V.I.Mordachev. Generalized EMC characteristics of radio receiving systems. - 19th International Wroclaw Symposium and Exhibition on EMC, Poland, Wroclaw, June 11-13, 2008, pp.429-434.
  2. V.I.Mordachev, E.V.Sinkevich. "EMC-Analyzer" expert system: improvement of IEMCAP models. - 19th International Wroclaw Symposium and Exhibition on EMC, Poland, Wroclaw, June 11-13, 2008, pp.423-428.
  3. V.Mordachev, S.Loyka. On Node Density - Outage Probability Tradeoff in Wireless Networks. - Trans. of the 2008 IEEE International Symposium on Information Theory, Canada, Toronto, July 6-11, 2008, pp.191-195.

2009

  1. V.Mordachev, S.Loyka. A Statistical Model of Interference in Wireless Networks, Network-Scale Fading fnd Outage Probability-Network Density Tradeoff.- "Doklady BSUIR", No. 3(35), 2009, p.26-40.
  2. V.Mordachev, S.Loyka. On Node Density - Outage Probability Tradeoff in Wireless Networks. IEEE Journal on Selected Areas in Communications, Vol. 27, No. 7, September 2009, p.1120-1131.
  3. V.I.Mordachev. EMC of Terrestrial Stations of Space Operation and Space Research Services with Onboard Radio Systems of Air Radionavigating Service. - Proceedings of the VIII-th International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, Saint-Petersburg, Russia, June 16-19, 2009, pp.67-70.
  4. V.I.Mordachev. Estimation of the Level of the Electromagnetic Background Formed By Mass Use of Cellular Communications. - Proceedings of the VIII-th International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, Saint-Petersburg, Russia, June 16-19, 2009, pp.249-252.
  5. E.V.Sinkevich. AM-PM Conversion Simulation Technique for Discrete Nonlinear Analysis of Electromagnetic Compatibility. - Proceedings of the VIII-th International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, Saint-Petersburg, Russia, June 16-19, 2009, pp.127-130.
  6. Мордачев В.И. Системная экология сотовой радиосвязи. Минск: Изд. центр БГУ, 2009,  319 с.
  7. Mordachev V. System ecology of cellular communications. Belarus State University Publishers, 2009, 319 p. (In Russ.)

2010

  1. V.Mordachev, S.Loyka. Statistical Properties of Electromagnetic Environment in Wireless Networks, Intra-Network Electromagnetic Compatibility and Safety. - 20th International Wroclaw Symposium and Exhibition on EMC "EMC Europe 2010", Poland, Wroclaw, Sept. 13-18, 2010, 6p.
  2. V.I.Mordachev, E.V.Sinkevich. "Virtual Testing Area" for Solving EMC Problems of Spatially Distributed Radiosystems based on Automated Double-Frequency Test System. - 20th International Wroclaw Symposium and Exhibition on EMC "EMC Europe 2010", Poland, Wroclaw, Sept. 13-18, 2010, 7p.

2011

  1. Mordachev V.I., Sinkevich E.V. Experimental Analysis of Radio Receiver Susceptibility to Out-of-Band Interference by Means of Double-Frequency Test System, Procedings of the 10-th Int. Symp. on EMC "EMC Europe 2011", UK, York, Sept. 26-30, 2011, pp. 405-411.
  2. V.Mordachev, O.Yurtsev. The Impact of Decorative Metallic Covering of Buildings on EMC of VHF/UHF Radio Communication Systems, Proceedings of the IX-th International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, Saint-Petersburg, Russia, Sept 13-16, 2011, pp.151-154.
  3. V.Mordachev. Estimation of the Compelled Ecological Risks at Influence of the Electromagnetic Fields Created by the Radiotelecommunication Equipment in Places With High Population Den-sity, Proceedings of the IX-th International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, Saint-Petersburg, Russia, Sept 13-16, 2011, pp.600-605.
  4. E.Sinkevich. Universal Technique for Interference Response Recognition from Results of Radio Receiver's Double-Frequency Testing, Proceedings of the IX-th International Symposium on Electromagnetic Compatibility and Electromagnetic Ecology, Saint-Petersburg, Russia, Sept 13-16, 2011, pp.308-311.

2012

  1. Sinkevich E., Mordachev V. Characterization of Radio Receiver's Front-End Nonlinearity by Measurement of Spurious-Free Dynamic Ranges, Proceedings of the 11-th Int. Symp. on EMC "EMC Europe 2012", Rome, Italy, Sept. 17-21, 2012, 6 p.
  2. V.Mordachev, The Compelled Environmental Risk at Occurrence of the Overall Electromagnetic Field Created by the Mobile and Fixed Radio Equipment, Proceedings of the 11-th Int. Symp. on EMC 'EMC Europe 2012', Rome, Italy, Sept. 17-21, 2012, 6 p.

2013

  1. V.Mordachev. Worst-Case Models of Electromagnetic Background Created by Cellular Base Stations.- Proceedings of the 9th International Wireless Communications & Mobile Computing Conference (IWCMC 2013), Cagliari, Sardinia, Italy, July 1-5, 2013, p.590-595.
  2. V.Mordachev, E.Sinkevich. Spurious and Intermodulation Response Analysis of Passive Double-Balanced Mixers using the Double-Frequency Scanning Technique, Proceedings of the 2013 Int. Symp. on EMC 'EMC Europe 2013', Brugge, Belgium, Sept. 2-6, 2013, p.737-742.

2014

  1. G.Slepyan. A.Boag, V.Mordachev, E.Sinkevich, S.Maksimenko, P.Kuzhir, G.Miano, A.Maffucci, M.Portnoi. Electromagnetic Compatibility Concepts at Nanoscale, Proceedings of the 2014 International Symposium on EMC 'EMC'14/Tokyo', Tokyo, Japan, May 12-16, 2014, p.13-16.
  2. V.Mordachev, E.Sinkevich. Representation and Analysis of Radio Receivers' Susceptibility and Nonlinearity by the Use of 3D Double-Frequency Characteristics, Proceedings of the 2014 International Symposium on EMC 'EMC'14/Tokyo', Tokyo, Japan, May 12-16, 2014, p.689-692.
  3. V.Mordachev, E.Sinkevich. Measurement of Radio Receivers' Front-End Nonlinearity by the Frequency Slipping Technique, Proceedings of the 2014 International Symposium on EMC 'EMC'14/Tokyo', Tokyo, Japan, May 12-16, 2014, p.693-696.
  4. V.Mordachev. Worst-Case Estimation of Electromagnetic Background Created by Cellular Mobile Stations Near Ground Surface // Proceedings of the 2014 Int. Symp. on EMC 'EMC Europe 2014', Gothenburg, Sweden, Sept. 1-4, 2014, pp.1275-1280.
  5. E.Sinkevich. Worst-Case Models of RF Front-End Nonlinearity for Discrete Nonlinear Analysis of Electromagnetic Compatibility // Proceedings of the 2014 Int. Symp. on EMC 'EMC Europe 2014', Gothenburg, Sweden, Sept. 1-4, 2014, pp.1281-1286.
  6. Computationally-Effective Ultra-Wideband Worst-Case Model of Electromagnetic Wave Diffraction by Aperture in Conducting Screen / Tsionenko D.A., Maly S.V., Sinkevich E.V. // Proceed-ings of the 2014 Int. Symp. on EMC 'EMC Europe 2014', Gothenburg, Sweden, Sept. 1-4, 2014, pp.1287-1292.
  7. Computationally-Effective Worst-Case Model of Wire Radiation in the Frequency Range 1 Hz - 40 GHz / Arlou Y.Y., Sinkevich E.V., Maly S.V., Slepyan G.Ya. // Proceedings of the 2014 Int. Symp. on EMC 'EMC Europe 2014', Gothenburg, Sweden, Sept. 1-4, 2014, pp.1293-1298.
Supplementary information:
EMC Europe 2014 Symposium Programme

2015

  1. V.Mordachev. Worst-Case Estimation of Electromagnetic Background Near Ground Surface Created by Heterogeneous Radioelectronic Environment // Proceedings of the EMC 2015 Joint IEEE International Symposium on Electromagnetic Compatibility and EMC EUROPE, Dresden, Germany, August 16-22, 2015, pp. 1147-1152.
  2. V.Mordachev, A.Svistunov. Reduction of the Radiated Power of Cellular Base Stations on Urban Area at High Intrasystem EMC Requirements // Proceedings of the EMC 2015 Joint IEEE International Symposium on Electromagnetic Compatibility and EMC EUROPE, Dresden, Germany, August 16-22, 2015, pp. 1153-1158.
  3. E.Sinkevich, V.Mordachev. Investigation of the Transmitter Susceptibility to Reverse Intermodulation by the Use of Double-Frequency Diagrams // Proceedings of the EMC 2015 Joint IEEE International Symposium on Electromagnetic Compatibility and EMC EUROPE, Dresden, Germany, August 16-22, 2015, pp. 1159-1164.
  4. D.A.Tsyanenka, E.V.Sinkevich, Y.Y.Arlou, S.V.Maly. Computationally-Effective Worst-Case Estimation of Currents in Transmission Lines for EMC Diagnostics of Big Systems // Proceedings of the EMC 2015 Joint IEEE International Symposium on Electromag-netic Compatibility and EMC EUROPE, Dresden, Germany, August 16-22, 2015, pp. 1165-1170.
  5. D.A.Tsyanenka, Y.Y.Arlou, E.V.Sinkevich, S.V.Maly. Computationally-Effective Wide-band Worst-Case Model of Transmission Line Radiation // Proceedings of the EMC 2015 Joint IEEE International Symposium on Electromagnetic Compatibility and EMC EUROPE, Dresden, Germany, August 16-22, 2015, pp. 1171-1176.
  6. Мордачев В.И., Свистунов А.С. Оценка необходимого уровня мощности излучения базовых станций стандарта GSM в городе с учетом требований внутрисистемной электромагнитной совместимости // Доклады БГУИР, №4(90), 2015, с.53-60.
  7. Синькевич Е.В. Комбинированная модель нелинейности радиотракта для дискретного анализа электромагнитной совместимости // Доклады БГУИР, № 3(89), 2015, с.36-42.
  8. Ционенко Д.А., Синькевич Е.В., Малый С.В., Орлов Е.Е. Модель дифракции высокочастотной электромагнитной волны на апертуре в проводящем экране // Докла-ды БГУИР, №5(91), 2015, с.5-11.
Supplementary information:
EMC Europe 2015 Symposium Programme

2016

  1. Y. Y. Arlou, E. V. Sinkevich and D. A. Tsyanenka, "Computationally effective wideband combined worst-case model of monopole antenna coupling," 2016 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Wroclaw, 2016, pp. 620-625.
  2. V. Mordachev, "Electromagnetic background created by base and mobile radio equipment of cellular communications," 2016 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Wroclaw, 2016, pp. 590-595.
  3. V. Mordachev et al., "EMC diagnostics of complex radio systems by the use of analytical and numerical worst-case models for spurious couplings between antennas," 2016 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Wroclaw, 2016, pp. 608-613.
  4. E. Sinkevich, D. Tsyanenka and O. Yurtsev, "System-level model for analysis of dipole antenna response to electromagnetic pulse," 2016 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Wroclaw, 2016, pp. 614-619.
  5. A. Svistunov and V. Mordachev, "Required levels of radiation power of GSM base stations on urban area taking into account attenuation in buildings and intrasystem EMC," 2016 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Wroclaw, 2016, pp. 596-601.
  6. D. A. Tsyanenka, E. V. Sinkevich and A. A. Matsveyeu, "Computationally-effective worst-case model of coupling between on-board antennas that takes into account diffraction by conducting hull," 2016 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Wroclaw, 2016, pp. 602-607.
Supplementary information:
EMC Europe 2016 Symposium Programme

2017

  1. Y. Y. Arlou, E. V. Sinkevich, D. A. Tsyanenka and Y. V. Yatskevich, "Worst-case model of spurious resonances appearing in radio-frequency cables and degrading electromagnetic compatibility characteristics of wireless equipment at out-of-band frequencies," 2017 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Angers, 2017, pp. 1-6.
  2. V. Mordachev, "System-level estimation of prevaling levels of EM fields of mobile phones considering near-field zone limitations of their antennas," 2017 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Angers, 2017, pp. 1-6.
  3. V. Mordachev, E. Sinkevich, Y. Yatskevich, A. Krachko, P. Zaharov and X. Ma, "Simulation of nonlinear interference in aircraft systems operating in complex electromagnetic environment created by land-based and air-based wireless systems," 2017 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Angers, 2017, pp. 1-6.
  4. E. Sinkevich, "Extraction of frequency response of receiver input filter from characteristic of receiver susceptibility to third-order intermodulation," 2017 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Angers, 2017, pp. 1-6.
  5. A. Svistunov, "Validation of empirical radiowave propagation models for diagnostics of intrasystem EMC and electromagnetic safety of microcellular radio networks," 2017 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Angers, 2017, pp. 1-6.
  6. D. Tsyanenka, E. Sinkevich and Y. Arlou, "Wideband worst-case model of electromagnetic field shielding by metallic enclosure with apertures," 2017 International Symposium on Electromagnetic Compatibility - EMC EUROPE, Angers, 2017, pp. 1-6.
Supplementary information:
EMC Europe 2017 Symposium Programme

2018

  1. Y. Y. Arlou, D. A. Tsyanenka, E. V. Sinkevich and X. Ma, "Worst-Case Model for Calculation of Lightning Electromagnetic Field," 2018 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Amsterdam, 2018, pp. 196-201.
  2. V. Mordachev, "Restrictions on Wideband Systems of Mobile Communications of New Generations at Declared Expansion of Data Transfer Rates," 2018 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Amsterdam, 2018, pp. 202-207.
  3. V. I. Mordachev et al., "Multi-Variant Discrete Analysis of EMC of on-Board Radio Equipment with Use of Worst-Case Models," 2018 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Amsterdam, 2018, pp. 190-195.
  4. A. Svistunov, "Estimation of Electromagnetic Background Created by Equipment of Cellular Radio Networks in Urban Areas with High Spatial Density of Subscribers," 2018 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Amsterdam, 2018, pp. 184-189.
  5. D. Tsyanenka, Y. Arlou and E. Sinkevich, "Worst-Case Model for Considering Gaskets in Calculation of Shielding Effectiveness of Metallic Enclosures," 2018 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Amsterdam, 2018, pp. 178-183.
Supplementary information:
EMC Europe 2018 Symposium Programme

2019

  1. Y. Y. Arlou, D. A. Tsyanenka, "Worst-case model of bonding strap effectiveness for equipment case irradiated by an electromagnetic field," 2019 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Barcelona, 2019, pp. 285-289.
  2. V. Mordachev, "Estimation of Electromagnetic Background Intensity Created by Wireless Systems in Terms of the Prediction of Area Traffic Capacity," 2019 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Barcelona, 2019, pp. 82-87.
  3. V. Mordachev et al., "EMC Diagnostics of Complex Ship Radioelectronic Systems by the Use of Analytical and Numerical Worst-Case Models for Spurious EM Couplings," 2019 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Barcelona, 2019, pp. 214-219.
  4. V. Mordachev et al., "Experimental Validation of Applicability of Low-Level Test Methods to Assess the Effectiveness of Shielding From High-Power Electromagnetic Fields," 2019 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Barcelona, 2019, pp. 279-284.
  5. I. Shakinka et al., "Automated Selection of Solutions for Protection of On-board System from External Electromagnetic Disturbances," 2019 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Barcelona, 2019, pp. 226-231.
Supplementary information:
EMC Europe 2019 Symposium Programme

2020

  1. V. Mordachev, "Verification of Worst-Case Analytical Model for Estimation of Electromagnetic Background Created by Mobile (Cellular) Communications," 2020 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Rome, 2020, pp. 1-6.
  2. E. Sinkevich, "Worst Case Model for Fast Analysis of Intermodulation Interference in Radio Receiver," 2020 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Rome, 2020, pp. 1-6.
  3. A. Svistunou, "Estimation of Electromagnetic Background Intensity Created by GSM Cellular Networks Base Stations with High Spatial Density on Urban Area," 2020 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Rome, 2020, pp. 1-6.
  4. D. Tsyanenka et al., "Computationally Effective Wideband Worst Case Model of Electromagnetic Wave Penetration between Compartments inside Enclosure," 2020 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Rome, 2020, pp. 1-6.
  5. D. Tsyanenka et al., "Computationally Efficient Wideband Worst Case Model of Plane Electromagnetic Wave Diffraction by Conductive System Hull," 2020 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Rome, 2020, pp. 1-7.
Supplementary information:
EMC Europe 2020 Symposium Programme

2021

  1. V. Mordachev, "Frequency-Independent Asymptotes of System Parameters of Urban Cellular Communications at Multipath Propagation of Radio Waves," 2021 IEEE International Joint EMC/SI/PI and EMC Europe Symposium, Raleigh, 2021, pp. 202-207.
  2. V. Mordachev, "Electromagnetic Background Generated by Mobile (Cellular) Communications," 2021 Asia-Pacific International Symposium on Electromagnetic Compatibility (APEMC), Nusa Dua – Bali, 2021, pp. 37-40.
  3. V. Mordachev et al., "Fast Discrete Diagnostics of EMC of Complex Co-Located Radio Systems by Using Worst-Case Models of Electromagnetic Spurious Couplings," 2021 Asia-Pacific International Symposium on Electromagnetic Compatibility (APEMC), Nusa Dua – Bali, 2021, pp. 45-48.
  4. E. Sinkevich et al., "Fast EMC Diagnostics of Complex On-Board Radio Systems with Use of Experimentally Refined Worst-Case and Conditionally Worst-Case Models of "Transmitter-to-Receiver" Interactions," 2021 IEEE International Joint EMC/SI/PI and EMC Europe Symposium, Raleigh, 2021, pp. 208-213.
  5. A. Svistunou et al., "Analysis of EMC between Medical Short-Range Devices and Equipment of Wireless Systems," 2021 IEEE International Joint EMC/SI/PI and EMC Europe Symposium, Raleigh, 2021, pp. 214-219.
  6. D. Tsyanenka et al., "Experimental Estimation of Shielding Effectiveness of Composite Materials by Use of Ultra Wideband Electromagnetic Pulses," 2021 IEEE International Joint EMC/SI/PI and EMC Europe Symposium, Raleigh, 2021, pp. 334-339.
  7. D. Tsyanenka et al., "UWB EMP Susceptibility Testing of General-Purpose Electronic, Radio Communication, and Industrial Equipment," 2021 Asia-Pacific International Symposium on Electromagnetic Compatibility (APEMC), Nusa Dua – Bali, 2021, pp. 41-44.
Supplementary information:
EMC/SI/PI and EMC Europe 2021 Symposium Programme
APEMC 2021 Symposium Programme

2022

  1. V. Mordachev, "System Analysis of Electromagnetic Environment Created by Radiating 4G/5G User Equipment Inside Buildings," 2022 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Sweden, 2022, pp. 525-530.
  2. E. Sinkevich et al., "Worst-Case Adaptive Model of Field Penetration into Shielding Enclosure," 2022 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Sweden, 2022, pp. 531-536.
  3. A. Svistunou et al., "Impact of Electromagnetic Radiation of 4G/5G Base Stations on Medical Short-Range Devices in Urban Area," 2022 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Sweden, 2022, pp. 537-542.
  4. D. Tsyanenka et al., "Estimation of Effectiveness of EMI Gaskets by using Results of Standardized Measurements," 2022 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Sweden, 2022, pp. 543-548.
Supplementary information:
EMC Europe 2022 Symposium Programme

2023

  1. V. Mordachev, "Influence of the Radiating UE Distribution Irregularity in Building Internal Space on the Level of Indoor Electromagnetic Background," 2023 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Poland, 2023, pp. 1-6.
  2. V. Mordachev, "Radiofrequency Electromagnetic Pollution of the Habitat Created by Mobile Communications", 2023, 19 p.
  3. V. Mordachev et al., "Influence of Base Stations Radiation Patterns on the Level of the Outdoor Electromagnetic Background Created by Mobile (Cellular) Communications," 2023 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Poland, 2023, pp. 1-6.
  4. E. Sinkevich et al., "Adjacent channel co-existence study between 5G NR and Wi-Fi in the 6 GHz band for indoor scenario," 2023 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Poland, 2023, pp. 1-6.
  5. A. Svistunou et al., "Analysis of EMC between Equipment of Wireless Systems and Medical NB IoT Devices," 2023 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Poland, 2023, pp. 1-6.
  6. A. Svistunou et al., "Problem of Electromagnetic Compatibility between 4G/5G Mobile Communications and Railway Signaling/Telecommunication Equipment," 2023 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Poland, 2023, pp. 1-6.
  7. D. Tsyanenka et al., "Technique for Evaluating the Contribution of Protective Means to Shielding Effectiveness of Heterogeneous Wall," 2023 International Symposium on Electromagnetic Compatibility (EMC EUROPE), Poland, 2023, pp. 1-6.
  8. D. Tsyanenka et al., "Threat Analysis of Vehicle Engine Electronic Control Unit in Severe Electromagnetic Pulse Environment and Research on Protection", 2023 International Conference on Electromagnetics in Advanced Applications (ICEAA), USA, 2023, pp. 575-579.
Supplementary information:
EMC Europe 2023 Symposium Programme
 

 

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