This article compares the different architectures of mobile communication networks (MCN) and examines the survivability of the network. Typical survival strategies for improving MCN survivability, failure mitigation strategies for network elements, wireless network survival rates, failure scenarios at MCN levels, and survival indicators are presented. The importance of fiber-optic communication in the construction of communication lines between MCN components has been studied. The issue of designing MCNs in a cost-effective and highly viable way is considered, and the necessary expressions of the design process are given.
 Abdulaziz M Nazarov Prof et al. Controlling and forecasting the reliability of integrated circuits of radio systems transmitting information. Chemical Technology, Control and Management, 2020(1):32–39, 2020.
 DA Davronbekov, UT Aliev, JD Isroilov, and XF Alimdjanov. Power providing methods for wireless sensors. In 2019 International Conference on Information Science and Communications Technologies (ICISCT), pages 1–3. IEEE, 2019.
 ZT Hakimov and DA Davronbekov. Equalization of spectral characterist of optical signanls by acoustooptic filters. In 2007 3rd IEEE/IFIP International Conference in Central Asia on Internet, pages 1–3. IEEE, 2007.
 Dilmurod Abdujalilovich Davronbekov et al. The role of wireless networking technology today. In : , , , pages 77–79, 2020.
 Jaafar MH Elmirghani, Thierry Klein, K Hinton, TEH El-Gorashi, Ahmed Q Lawey, and Xiaowen Dong. Greentouch greenmeter core network power consumption models and results. In 2014 IEEE Online Conference on Green Communications (OnlineGreenComm), pages 1–8. IEEE, 2014.
 UK Matyokubov. Davronbekov da the impact of mobile communication power supply systems on communication reliability and viability and their solutions. International Journal of Advanced Science and Technology, 29(5):3374–3385, 2020.
 D Davronbekov. Sredstva peredachi i priyema informatsii v mobilnix sistemax svyazi. konspekt leksiy, 2011.
 U Matyakubov and D Davronbekov. Increasing energy efficiency of base stations in mobile communication system. Acta of Turin Polytechnic University in Tashkent, 10(1):19, 2020.
 IA Bogoroditskaya. Chrz network sharing k 4g. pages 56–56. IEEE, 2011.
 TO Rakhimov, UK Matyokubov, and MR Yangiboyeva. Immediate modeling of matlab-simevents transmitting communication work process. Acta of Turin Polytechnic University in Tashkent, 9(1):76–79, 2019.
 L Shusterman S Portnoy. Perspektivnie arxitekturi opornix setey dlya sistem mobilnoy svyazi 4g, 2011.
 U Matyakubov and D Davronbekov. Approaches to the organization of disasterresistant mobile network architecture in uzbekistan. Acta of Turin Polytechnic University in Tashkent, 10(2):10, 2020.
 Davronbekov D.A. Bsprovodn sistm svyazi konspekt leksiy ii-chast programmirovaniye. 2015.
 Davronbekov D. Odin iz podxodov k ponyatiyu slojnoy radiotexnicheskoy sistemi. Vestnik TUIT, 4:53–57, 2008.
 Arif Merchant and Bhaskar Sengupta. Multiway graph partitioning with applications to pcs networks. pages 593–600, 1994.
 Arif Merchant and Bhaskar Sengupta. Assignment of cells to switches in pcs networks. IEEE/ACM Transactions on networking, 3(5):521–526, 1995.
 Darko Skorin-Kapov and Jadranka Skorin-Kapov. On tabu search for the location of interacting hub facilities. European Journal of Operational Research, 73(3):502– 509, 1994.
 Louis Anthony Cox and Jennifer Ryan Sanchez. Designing least-cost survivable wireless backhaul networks. Journal of Heuristics, 6(4):525–540, 2000.
Davronbekov, Dilmurod and Matyokubov, Utkir Karimovich
"THE ROLE OF NETWORK COMPONENTS IN IMPROVING THE RELIABILITY AND SURVIVABILITY OF MOBILE COMMUNICATION NETWORKS,"
Acta of Turin Polytechnic University in Tashkent: Vol. 10
, Article 2.
Available at: https://uzjournals.edu.uz/actattpu/vol10/iss3/2