The Orbital Channel Resource Control on NonMarkov Priority Systems of Mass Service Basis. Part 1.Operational Distribution Model

In work systems analysis of process of target functioning of the satellite command relay system (SCRS) in the conditions of a difficult radio-electronic situation is carried out. The carried-out analysis of perspectives of development of a subsystem of relaying of SKRS of orbital grouping of spacecrafts of remote sensing of Earth, allowed to draw a conclusion on features of a stage of coordination planning of the means of a subsystem of relaying consisting in distribution of SKRS the orbital channel resource (OCR) on the basis of the non-Markov priority systems of service. The model of operational distribution of ROC of a subsystem of relaying on the basis of the priority systems of service in which, unlike the known models, time of stay of the request in a system is limited is received, limits for a type of distribution of holding time of requests are lifted and also expression for calculation of the initial moments of distribution of waiting time of messages of different priorities is received. Use of model allows to evaluate the probability of untimely delivery of details and also to provide required figures of merit of service of priority flows and at the expense of it to provide the required connectivity and stability of SKRS in general.

1. Kamnev V.E., Cherkasov V.V., Chechin G.V. Satellite Communication Networks. Moscow: Alpina Pablisher Publ.; 2004. 536 p. (in Russ.)

2. Zhukov S., Kovalsky A., Mitryaev G., Kvasov M Operational Distribution of the Radio Resource of Satellite Communication System for the Purpose of Ensuring Management of Spacecrafts. Trudy Nauchno-issledovatelskogo instituta radio. 2017;2: 29–36. (in Russ.)

3. Zinnurov S., Kovalsky A., Mitryaev G. Task`s Solution of Satellite Communication System`s Optimal Radio Resource Planning for the Sessions of Space Appliance`s Orbital Group Managing. Proc. of Telecom. Universities. 2018;4(1):67–74. (in Russ.) DOI:10.31854/1813-324x-2018-1-67-74

4. Novikov E.A., Kovalsky A.A., Mitryaev G.A. An Algorithm and a Technique of Operational Planning and Distribution of a Radio Resource of the Satellite Communication System for the Organization of Steady Management of Orbital Grouping of Spacecrafts. Proceedings of the Mozhaisky Military Space Academy. 2019;3(666):68–76. (in Russ.)

5. Mikhaylov R.L., Makarenko S.I. Estimating Communication Network Stability Under the Conditions of Destabilizing Factors Affecting It. Radio and telecommunication systems. 2013:4:69–79. (in Russ.)

6. Vladimirov V.I. Information Bases of Radio Suppression of Lines of a Radio Communication in Dynamics of Information Conflict. Voronezh: VAIU; 2003. 139 p. (in Russ.)

7. Makarenko S.I. Assessment of Quality of Service of a Packet Radio Network in the Non-Stationary Mode in the Conditions of Influence of the External Destabilizing Factors. Journal of Radio Electronics. 2012;6:2. (in Russ.)

8. Mikhaylov R.L., Makarenko S.I., Novikov E.A. A Research of Channel and Network Parameters of a Communication Channel in the Conditions of Dynamically Changing Signal and Interfering Situation. Journal of Radio Electronics. 2014;10:2. (in Russ.)

9. Makarenko S.I. A Research of Influence of Deliberate Noises on Opportunities for Relaying of the Message and Figures of Merit of Service of the Data Link Layer of the OSI Model for the Communication System with Accidental Multiple Access of Subscribers. Informatsionnyye tekhnologii modelirovaniya i upravleniya. 2010;6(65):807–815. (in Russ.)

10. Kosyakov E.N., Mitryaev G.A. The Method of Priority Dispatching of Orbital Channel Resource on the Basis of NonMarkov Priority Queuing Systems. Izvestiya Instituta inzhenernoy phiziki. 2018;4:43–49. (in Russ.)

11. Krasnosselsky I.N., Kanev S.A. Analyzing DVB-T System's Interference Immunity in a Multipath Fading Channel as a Model. Electrosvyaz. 2010;7:28–30. (in Russ.)

12. Khudiakov G.I. Quadrature-Amplitude Modulation Digital Communication Channels' Capacity. Electrosvyaz. 2010;6: 38–40. (in Russ.)