COMPATIBILITY IN THE 4800−4900 MHZ FREQUENCY BAND BETWEEN 5G AND AERONAUTICAL AND MARITIME MOBILE STATIONS LOCATED IN THE INTERNATIONAL SPACE
A.S. Pastukh, FSBI NIIR, head of laboratory; a. email@example.com
A.A. Zaharov, FSBI NIIR, deputy director general, associate professor, Ph.D.; a. firstname.lastname@example.org
Keywords: 5G NR, AMS, MMS, Monte-Carlo analysis, IMT, EEZ.
This article explores the interference of 5G networks on aeronautical mobile and maritime mobile radio service systems in 4800−4990 MHz frequency band. Additionally, the article describes the challenge of protecting communication systems located in the international airspace and neutral waters.
ANALYSIS OF WAYS TO COUNTER A SWARM OF SMALL UNMANNED AERIAL VEHICLES
M.M. Stupnitsky, FSBI NIIR, scientific secretary, associate professor, Ph.D.; email@example.com
L.O. Myrova, FSBI NIIR, leading researcher, professor, Dr.Sci.(Tech.); firstname.lastname@example.org
P.I. Antonovich, FSBI NIIR, director of the Internet of Things Research Center (IoTRC), associate professor, Dr.Sci.(Mil.); p. email@example.com
R.V. Kirichek, Bonch-Bruevich Saint-Petersburg State University of Telecommunications, rector, associate professor, Dr.Sci.(Tech.); firstname.lastname@example.org
Keywords: unmanned aerial vehicle, UAV, counteraction to unmanned aerial vehicles, functional damage, electronic warfare, electromagnetic pulse, microwave radiation, laser radiation.
An analysis of various methods and means of counteracting a swarm of small-sized UAVs, including microwave methods of exposure, ultra-short pulses of electromagnetic radiation, microwave and laser radiation sources, is given. Methods for the formation of general directions for the effective solution of this problem are also considered.
METHOD OF OPTIMUM USE OF NETWORK RESOURCES FOR A ROBOT-MANIPULATOR
L.S. Gorbacheva, Bonch-Bruevich Saint-Petersburg State University of Telecommunications, department of communication networks and data transmission, postgraduate; gorbacheva. email@example.com
Keywords: telecommunication network, robotic system, efficiency, command execution error, control, robot-manipulator.
The paper discusses the process of information interaction of a robot-manipulator with a remote control system from the point of view of the efficiency of using network resources. A model of the manipulator control system in the case of serial transmission of commands and a method for selecting and maintaining the optimal parameters of interaction with the network from the position of efficient use of the channel, i.e. transmission of maximum useful data, are developed. The results obtained can be used in the provision of telepresence services in communication networks of the fifth and beyond generations for robotic devices and systems.
THE METHOD FOR IDENTIFYING THE TYPE OF DIGITAL MODULATION IN OPTICAL COMMUNICATION SYSTEMS USING CONVOLUTIONAL NEURAL NETWORKS
N.I. Popovskiy, The Bonch-Bruevich Saint Petersburg State University of Telecommunications (SPbSUT), department of photonics and communication lines, postgraduate; firstname.lastname@example.org
V.V.Davydov, Peter the Great Saint Petersburg Polytechnic University, professor, SPbSUT, professor, Dr.Sci.(Phys.-Math.); email@example.com
Keywords: machine learning, deep neural networks, fiber-optic transmission systems, modulation format, digital signal processing.
The article notes that the implementation of advanced digital modulation schemes and coherent transmission systems has led to the development of new diagnostic and network management methods. For this purpose, it is necessary to have information about the modulation formats and symbol rates of all received optical signals. A method for identifying the type of digital modulation in optical communication systems using convolutional neural networks, which provides higher accuracy (up to 99.9%) compared to other machine learning algorithms, is proposed. The results of the research have shown that the method proposed by the authors can be used in the development of optical transponders or in systems for monitoring the optical characteristics of communication lines during operation.
NONLINEAR DEMODULATION ALGORITHM FOR A SYSTEM BASED ON NOMA AND SPATIAL MULTIPLEXING
V.B. Kreyndelin, Moscow Technical University of Communications and Informatics (MTUCI), head of department, professor, Dr.Sci.(Tech.); firstname.lastname@example.org
L.A. Varukina, MTUCI, applicant, Ph.D.; email@example.com
Keywords: MIMO, NOMA, PD-NOMA, SIC, ML, demodulation algorithm, mobile communications.
A demodulation problem is a subject of this article, it refers to a mobile system implementing advanced technologies like nonorthogonal multiple access and spatial multiplexing. A proposed nonlinear demodulation algorithm is more efficient than known successive interference cancellation algorithm and gets closer to maximum likelihood efficiency at a lower complexity.
ANALYSIS OF MODERN NOISE TOLERANCE ALGORITHMS FOR COHERENT OPTICAL SYSTEMS WITH DATA RATES AT 100 GBIT/S AND ABOVE
R.Z. Ibragimov, Siberian State University of Telecommunications and Informatics, associate professor, Ph.D.; firstname.lastname@example.org
Keywords: DWDM, modulation formats, OTN, interference coding, digital signal processing.
The paper considers issues related to interference-resistant coding for coherent communication channels used in DWDM systems. The classification of algorithms and code structure in the OTN frame for communication channels with the speed above 100 Gbit/s are given.
INFORMATION SYSTEM FOR ANALYZING THE STATE OF INFRASTRUCTURE ELEMENTS OF MULTISERVICE NETWORKS BASED ON HIERARCHICAL FUZZY INFERENCE
A.A. Sorokin, Astrakhan State Technical University, Caspian Institute of Sea and River Transport named after general-adm. F.M. Apraksin — branch of FGBOU VO «VSUVT», associate professor, Ph.D.; alsorokin. email@example.com
Keywords: OSS/BSS systems, analysis, network infrastructure element, fuzzy inference systems, information processing, modeling.
A system for processing information about the state of elements of multiservice networks is built. This system includes a block for generating an aggregated estimate and a block for separating objects of analysis. The block for generating an aggregated estimate is implemented using a hierarchical fuzzy inference system that aggregates information about the parameters that characterize the state of the network element. The block for separating objects of analysis is implemented using a sequence of fuzzy inference systems and distributes objects of analysis by state classes. The study of the proposed provisions showed the high sensitivity of the system in the event of deviations of the estimated parameters into the region of «bad» values, the ability to distribute the objects of analysis by state classes, and when using additional clustering methods, to select objects from the state classes that have close values of the characteristics taken into account. The proposed provisions lay the foundation for the creation of a complex of planning measures for servicing the network infrastructure of telecom operators.
PROBLEMS OF IDENTIFICATION OF SUBSCRIBERS INITIATING VOICE CONNECTIONS IN A DATA TRANSMISSION NETWORK
D.A. Paltsin, FSBI NIIR, director of research center; firstname.lastname@example.org
A.S. Fen, FSBI NIIR, head of department; email@example.com
A.P. Gorchakov, FSBI NIIR, head of department, Ph.D.; firstname.lastname@example.org
V.M. Gusev, FSBI NIIR, head of department; email@example.com
I.D. Deart, FSBI NIIR, leading researcher, Ph.D.; firstname.lastname@example.org
A.Yu.Tsym, FSBI NIIR, chief researcher, Dr.Sci.(Tech.); email@example.com
Keywords: subscriber identification, voice information transmission, data transmission network.
The current backlog of the regulatory framework from several new network services has necessitated an urgent and adequate solution to ensure their progressive development. At the same time, the changes should consistently affect some existing regulatory and technical documents. The most urgent problems of regulatory regulation related to the identification of subscribers initiating voice call in the data transmission network are analyzed. This is especially important for ensuring the safety of communication networks in conditions of intensive growth of telecommunication traffic.