СВЧ-техника и телекоммуникационные технологии: взгляд в будущее (обзор 32-й Международной конференции «СВЧ-техника и телекоммуникационные технологии»)
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Bogdanov S. A. The use of neural networks in the construction of nonlinear models of field-effect transistors. Infocommunications and Radio Technologies. 2022;(5)1:45–53. DOI: 10.29039/2587-9936.2022.05.1.03. (In Russ.)
Dmitriev A. S., Yefremova E. V., Itskov V. V., Petrosyan M. M., Ryzhov A. I. Ultra-wideband radio communication based on chaotic radio pulses in the meter and decimeter range. Infocommunications and Radio Technologies. 2022;(5)1:25–44. DOI: 10.29039/2587-9936.2022.05.1.02. (In Russ.)
Bogomolova E. A., Galdetsky A. V., Savin A. N. Planar Retarding Systems for TWTs in the Millimeter Wave Range. Infocommunications and Radio Technologies. 2022;(5)1:54–69. DOI: 10.29039/2587-9936.2022.05.1.04. (In Russ.)
Gerasimov Yu. M., Petrichkovich Ya. Ya. Radiation-resistant VLSI “system-on-a-chip” and RAM – design features for bulk silicon CMOS technologies. Infocommunications and Radio Technologies. 2022;(5)4:548–569. DOI: 10.29039/2587-9936.2022.05.4.39. (In Russ.)
Shirokov I. B., Yevdokimov P. A., Sokolova M. I. Simulation of a coaxial-waveguide transition in the ANSYS HFSS software package. Infocommunications and Radio Technologies. 2022;(5)2:247–252. DOI: 10.29039/2587-9936.2022.05.2.18. (In Russ.)
Degtyarev A. N., Kozhemyakin A. S. A matched filter synthesis method for white noise and non-Gaussian noise conditions. Infocommunications and Radio Technologies. 2022;(5)2:253–259. DOI: 10.29039/2587-9936.2022.05.2.19. (In Russ.)
Shirokov I. B., Serdyuk I. V., Azarov A. A., Shirokova E. I. Investigation of the wireless power transmission system. Infocommunications and Radio Technologies. 2022;(5)4:445–457. DOI: 10.29039/2587-9936.2022.05.4.33. (In Russ.)
Samsonov G. A., Yermolov P. P. VII Congress of RNTORES n. a. A. S. Popov. Infocommunications and Radio Technologies. 2022;(5)3:378–394. DOI: 10.29039/2587-9936.2022.05.3.29. (In Russ.)
Bondarev V. N. Implementation of 2D convolution for spike neural networks. Microwave and Telecommunication Technology. 2022;(4):68–69. (In Russ.)
Slezkin V. G., Slezkin G. V. Loop antenna with microstrip power supply. Microwave and Telecommunication Technology. 2022;(4):112–113. (In Russ.)
Afonin I. L., Polyakov A. L., Didus V. T., Shundrin M. I. Method of testing space communication earth stations with a large antenna aperture. Microwave and Telecommunication Technology. 2022;(4):227–228. (In Russ.)
Sovlukov A. S. Radio frequency method of invariant level measurement of dielectric liquids in containers. Microwave and Telecommunication Technology. 2022;(4):263–264. (In Russ.)
Gudkov A. G., Vesnin S. G., Soloviev Yu. V., Tikhomirov V. G., Popov V. V. Prospects for microminiaturization of multichannel multifrequency radiothermographs. Infocommunications and Radio Technologies. 2022;(5)1:531–547. DOI: 10.29039/2587-9936.2022.05.4.38. (In Russ.)
Chizhikov S. V., Popov V. V., Tikhomirov V. G., Soloviev Yu. Element base of microwave MIS for a multichannel multifrequency radiothermometer. Infocommunications and Radio Technologies. 2022;(5)1:515–530. DOI: 10.29039/2587-9936.2022.05.4.37. (In Russ.)
Leushin V. Yu., Agasieva S. V., Vesnin S. G., Sedankin M. K., Porokhov I. O., Vetrova N. A., Gorlacheva E. N., Sidorova M. I. Tasks improvement of medical antennas for microwave radiothermometry of biological objects (review). Infocommunications and Radio Technologies. 2022;(5)4:484–514. DOI: 10.29039/2587-9936.2022.05.4.36. (In Russ.)
Komissarova E. V., Krekhtunov V. M. Linear module of phased antenna array W frequency range. Microwave and Telecommunication Technology. 2022;(4):77–78. (In Russ.)
Aleksandrov V. R., Baranov S. E., Kuznetsov M. I., Malgin S. A., Obukhov I. A., Sverdlova A. D., Fateev D. A. Artificial intelligence in production planning problems. Infocommunications and Radio Technologies. 2022;(5)2:196–208. DOI: 10.29039/2587-9936.2022.05.2.14. (In Russ.)
Grusha A. V., Krutov A. V., Rebrov A. S. Method of constructing MIS microwave power limiters to increase the combustion threshold. Infocommunications and Radio Technologies. 2022;(5)1:79–92. DOI: 10.29039/2587-9936.2022.05.1.06. (In Russ.)
Galdetskiy A. V. On Prospects of Output Power Increasing in Low-Voltage Multibeam Klystrons for Electron Accelerators. Infocommunications and Radio Technologies. 2022;(5)1:93–100. DOI: 10.29039/2587-9936.2022.05.1.07.
Aleksandrov V. R., Baranov S. E., Obukhov I. A. Industrial Internet of things for enterprises of the radio-electronic industry. Infocommunications and Radio Technologies. 2022;(5)2:209–217. DOI: 10.29039/2587-9936.2022.05.2.15. (In Russ.)
Pestryakov A. V. Development and testing of a combined system for global monitoring of moving objects. Infocommunications and Radio Technologies. 2022;(5)2:185–195. DOI: 10.29039/2587-9936.2022.05.2.13. (In Russ.)
Adzhemov A. S., Kudryashova A. Yu. Investigation of minimizing the probability of errors arising in multidimensional discrete modulation methods. Microwave and Telecommunication Technology. 2022;(4):34–36. (In Russ.)
Poletaev D. A., Maltsev K. S., Maiko V. V., Vlasov V. P. The use of microwave measurements for sorting the constituent elements of archaeological objects. Infocommunications and Radio Technologies. 2022;(5)4:458–471. DOI: 10.29039/2587-9936.2022.05.4.34. (In Russ.)
Batura M. P., Shneiderov E. N. System for monitoring indicators of the educational process in the field of information technology in telecommunications. Microwave and Telecommunication Technology. 2022;(4):62–63. (In Russ.)
Abramov I. I., Kolomeytseva N. V., Labunov V. A., Shcherbakova I. Yu. Modeling of RTD characteristics based on GaN/AlGaN with vertical transport. Microwave and Telecommunication Technology. 2022;(4):177. (In Russ.)
Kolosov S. V., Shatilova O. O., Batura M. P. Gyro-TWT at TE02 wave. Microwave and Telecommunication Technology. 2022;(4):199–200. (In Russ.)
Kasyanov A. O., Chernyshev A. S. Transmission and reflective diffraction gratings composed of TFH-printed transducers. Microwave and Telecommunication Technology. 2022;(4):100–101. (In Russ.)
Sdobnova V. P., Makhno A. S., Krutiev S. V. Band pass filter on a metawaveguide. Infocommunications and Radio Technologies. 2022;(5)3:353–360. DOI: 10.29039/2587-9936.2022.05.3.26. (In Russ.)
Lonkina D. V., Zemlyakov V. V., Gubsky D. S., Krutiev S. V. Bandpass filter on cylindrical waveguide structures with complex metal ridges. Infocommunications and Radio Technologies. 2022;(5)3:361–369. DOI: 10.29039/2587-9936.2022.05.3.27. (In Russ.)
Svetlichny A. S., Chuvarayan T. A., Krutiev S. V. Band pass filter on a rectangular waveguide with flat longitudinal thin diaphragms. Infocommunications and Radio Technologies. 2022;(5)3:370–376. DOI: 10.29039/2587-9936.2022.05.3.28. (In Russ.)
Volvach A. E., Volvach L. N., Larionov M. G. Detection of dense clusters of water vapor maser sources during powerful flares in the IRAS 16293-2422 complex. Infocommunications and Radio Technologies. 2022;(5)1:1–24. DOI: 10.29039/2587-9936.2022.05.1.01. (In Russ.)
Volvach L. N., Volvach A. E., Larionov M. G. Superpowerful flare phenomenon of a water vapor maser in the protostellar system IRAS 16293-2422. Infocommunications and Radio Technologies. 2022;(5)2:153–168. DOI: 10.29039/2587-9936.2022.05.2.11. (In Russ.)
Volvach L. N., Kurbasova G. S., Volvach A. E. Analysis of meteorological and solar series of satellite observations at the Kara-Dag site. Infocommunications and Radio Technologies. 2022;(5)3:295–303. DOI: 10.29039/2587-9936.2022.05.2.21. (In Russ.)
Novikov S. S., Kosterova V. S. Stable and Unstable Dynamic Processes in a Self-Oscillatory System with Three Degrees of Freedom. Infocommunications and Radio Technologies. 2022;(5)2:218–235. DOI: 10.29039/2587-9936.2022.05.2.16. (In Russ.)
Berdyugin A. I., Bad’in A. V., Dorozhkin K. V., Gurskii R. P. Terahertz Diagnosis System for Inhomogeneities in Sheet Dielectrics Based on the Phase-Contrast Method. Microwave and Telecommunication Technology. 2022;(4):223–224. (In Russ.)
Bad’in A. V., Kuleshov G. E., Shematilo T. N., Moskalenko V. D. Polymer composite materials based on a ferroelectric for additive technology for creating thermal sensors in the subterahertz range. Microwave and Telecommunication Technology. 2022;(4):149–150. (In Russ.)
Kulinich I. V., Somogonyants A. A., Shesterikov E. V., Mokhovikov D. M. Integral optical waveguides based on Si3N4 films. Infocommunications and Radio Technologies. 2022;(5)3:318–324. DOI: 10.29039/2587-9936.2022.05.3.23. (In Russ.)
Erin F. A., Weber V. I., Kuprits V. Yu., Netesov A. A. Infocommunications and Radio Technologies. 2022;(5)3:325–341. DOI: 10.29039/2587-9936.2022.05.3.24. (In Russ.)
Malyutin G. A. Modules based on a coplanar line for measuring the microwave parameters of bulk electro-optical crystals filling the upper half-plane of a stripe structure. Microwave and Telecommunication Technology. 2022;(4):125–126. (In Russ.)
Itskov V. V. Evolution of communication standards for ultrawideband low-speed wireless personal networks. Microwave and Telecommunication Technology. 2022;(4):48–49. (In Russ.)
Andreev Yu. V., Petrosyan M. M. The “waveguide” effect during the propagation of ultra-wideband signals in a room. Infocommunications and Radio Technologies. 2022;(5)1:70–78. DOI: 10.29039/25879936.2022.05.3.22. (In Russ.)
Kondratenko A. V., Sorvachev P. S. Specialized set of GaAs MIS for X-band APAA transceiver modules. Microwave and Telecommunication Technology. 2022;(4):9–10. (In Russ.)
Alybin V. G., Syomochkin A. S., Rogkov V. М., Avramenko S. V. Major Items of Construction Amplifiers of UNF Power for the Auxiliary Systems of Spacecrafts. Infocommunications and Radio Technologies. 2022;(5)1:70–78. DOI: 10.29039/2587-9936.2022.05.1.05. (In Russ.)
Karushkin N. F., Obukhov I. A. Nanophoton Generator of Picosecond Pulses. Infocommunications and Radio Technologies. 2022;(5)2: 169–184. DOI: 10.29039/2587-9936.2022.05.2.12.
Leont’ev A. N., Ginzburg N. S., Zotova I. V., Rozental’ R. M., Malkin A. M., Sergeev A. S. Theoretical study and numerical simulation of a high-current relativistic gyrotron in the millimeter wavelength range in frequency multiplication mode. Microwave and Telecommunication Technology. 2022;(4):202–202. (In Russ.)
Zapevalov V. E. On increasing the operating frequency of gyrotrons. Microwave and Telecommunication Technology. 2022;(4):207–208. (In Russ.)
Malygin I. V., Surkov D. V., Kudinov S. I., Ivanov V. E. Development and research of a low-noise microwave amplifier in the range 9550– 9650 MHz for meteorological radar stations of a new generation. Microwave and Telecommunication Technology. 2022;(4):1–2. (In Russ.)
Bukrin I. V., Gusev A. V., Ivanov V. E., Plokhikh O. V., Rysev V. V., Surkov D. V. Some results of testing and operation of the “Polus” atmospheric radio sounding navigation system. Microwave and Telecommunication Technology. 2022;(4):235–236. (In Russ.)
Snigirev M. V., Sosnovsky A. V., Kobernichenko V. G. Investigation of the efficiency of phase noise suppression filters for synthesized aperture radar interferograms. Microwave and Telecommunication Technology. 2022;(4):347–348. (In Russ.)
Krivoruchko Yu. T., Lipakov N. E., Mursalov D. L. Implementation of the ranging channel in MLS airborne and ground equipment in cognitive microwave systems for instrumental landing of maneuverable aircraft. Microwave and Telecommunication Technology. 2022;(4):46–47. (In Russ.)
Gromozdin V. V., Ievlev K. V., Kozub M. S., Novikova T. V. Method for determining the range of a coastal radar station. Infocommunications and Radio Technologies. 2022;(5)2:236–246. DOI: 10.29039/25879936.2022.05.2.17. (In Russ.)
Puzankov L. A. Design activity of the Crimean radio amateurs. Infocommunications and Radio Technologies. 2022;(5)4:570–586. DOI: 10.29039/2587-9936.2022.05.3.40. (In Russ.)
Pkhaiko N. A., Kondratiev A. A., Pakhomov S. N., Potapov A. V., Sorokin I. A., Tishchenko A. S. Experimental studies of the characteristics of photocathodes in the ultraviolet range of the spectrum. Infocommunications and Radio Technologies. 2022;(5)3:325–341. DOI: 10.29039/2587-9936.2022.05.3.24. (In Russ.)
Kazakov A. G., Pkhaiko N. A., Safronov K. V., Gornov V. N., Peshkicheva L. E., Pakhomov S. N., Pisarev E. M., Smirnov Yu. Yu., Saveliev A. V. Fabrication and research of low-density metal materials. Infocommunications and Radio Technologies. 2022;(5)3:342–352. DOI: 10.29039/2587-9936.2022.05.3.25. (In Russ.)
Bashkuev Yu. B., Khaptanov V. B., Dembelov M. G. Determination of Forest Environment Density by Georadar “OKO-2”. Infocommunications and Radio Technologies. 2022;(5)4:429–435. DOI: 10.29039/25879936.2022.05.2.21.
Pestrikov V. M. Problems of long-distance telephony at the turn of the 19th and 20th centuries and the search for their solution. Infocommunications and Radio Technologies. 2022;(5)1:117–151. DOI: 10.29039/2587-9936.2022.05.1.10. (In Russ.)
Pestrikov V. M. Michael Pupin and pupinization of telephone lines. Infocommunications and Radio Technologies. 2022;(5)2:260–293. DOI: 10.29039/2587-9936.2022.05.2.20. (In Russ.)
Pestrikov V. M. The choice of the development trend of the Bell System at the beginning of the 20th century. Infocommunications and Radio Technologies. 2022;(5)3:395–427. DOI: 10.29039/25879936.2022.05.3.30. (In Russ.)
Pestrikov V. M. Robert Milliken and his role in the birth of modern radio tubes. Infocommunications and Radio Technologies. 2022;(5)4:587–610. DOI: 10.29039/2587-9936.2022.05.3.41. (In Russ.)
Qingdong Deng, Qijia Guo, Rui Li, Guangyuan Yang, Yan Liu, Zhaochang He. Non-Thermal Air Arc Plasma Assisted Biomass Gasification. Infocommunications and Radio Technologies. 2022;(5)1:108–116. DOI: 10.29039/2587-9936.2022.05.1.09.
Hongzhu Xi, Pengkang Wang, Chunhua Bao, and Yongming Liu. The Research on Backward Wave Oscillator with Wide Tunable Bandwidth and High Power. Infocommunications and Radio Technologies. 2022;(5)1:101–107. DOI: 10.29039/2587-9936.2022.05.1.08.