Technique for a quickly deployed communication network creation based on radio relay lines

Radio relay communication plays an important role in the creation of digital infrastructure. Modern digital radio relay lines allow organizing high-speed communication channels supporting the transmission of all types of traffic, including voice messages, packet data transmission, and video signals in real time. The article discusses methods for calculating digital radio relay communication lines, and also provides general recommendations for organizing digital radio relay communication lines. The design of radio relay lines is carried out in such a way that they have high bandwidth and high reliability, taking into account the physical (energy) and channel-network capabilities of the system. The calculation method requires determining the energy parameters, deriving the form of the quality equation, calculating the performance criteria and methods for calculating the attenuation of radio waves at radio relay intervals. The possibility of using MPLS-technology in the radio relay communication was positively assessed. The radio relay network routing system is based on multiplexing streams with a protection mechanism at the channel and network levels. Continuous adaptive modulation mode allows flexible QAM rate change, allowing continuous traffic. The redundancy according to the «1+1» and «2+0» schemes is considered. This scheme doubles the system throughput and prioritizes traffic. The technique allows you to build a digital radio relay network with flexible changes in both physical and network parameters.

1. GOST R 53363-2009 Digital radio relay linep. Quality indicatorp. Calculation methods - M .: Standartinform, 2010.

2. General technical requirements for radio relay equipment of digital main radio relay lines of the Russian Armed Forcep.

3. Military systems of radio relay and tropospheric communication., Ed. Volkova E.A. -L .: YOU them. CM. Budyonny, 1984.

4. Bykhovsky M.A., Kirik Y.M., Nosov D.I. and other Basics of designing digital radio relay communication linep. - M .: Hotline-Telecom, 2014.

5. Rubtsov E.A., Meshalov R.O., Oparin A.I. Methods for determining the working area of aviation digital radio communication systems, Transport of Russia: problems and prospects - 2017. Materials of the International Scientific and Practical Conference. IPT RAP. St. Petersburg. 2017. P. 204-208.

6. Kulchitsky V.K., Meshalov R.O., Kopeikin A.A. Methods for calculating digital radio-relay communication lines, Transport of Russia: problems and prospects - 2019. Materials of the International Scientific and Practical Conference. IPT RAP. St. Petersburg. 2017: 227-231.

7. Palmieri F. VPN scalability over High Performance Backbones Evaluating MPLS VPN Against Traditional Approaches. Eighth IEEE International Symposium on Computers and Communication (ISCC’03). 2003.

8. Goldstein, A.B., Goldstein, B.P. MPLS technology and protocols. – SPb .: BHV-Saint Petersburg, 2005.

9. Yakimova IA A mathematical model of processing IP packets in a VPNMPLS network router, IA Yakimova, VE Toiskin, VA Tsimbal, SV Ryabtsev, TA Isaeva, Mezhdun. conf. "Radioelectronic devices and systems for infocommunication tech№logies" (RES-2014)

10. Gornak A. Transmission of hybrid traffic in packet radio relay systems [Electronic resource], Tech№logies and communication facilities: journal, ed. V.R. Anpilogov Moscow, 2010. №. 3. URL: http://www.tssonline.ru/articles2/fixop/per edacha-gibrid№go-trafka-v-paketnyhradioreleynyh-sistemah (date of access 29.08.20)