Международный журнал информационных и коммуникационных технологий
НАУЧНО-ПРАКТИЧЕСКАЯ КОНФЕРЕНЦИЯ «30-ЛЕТИЕ НЕЗАВИСИМОСТИ КАЗАХСТАНА
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| НАУЧНО-ПРАКТИЧЕСКАЯ КОНФЕРЕНЦИЯ «30-ЛЕТИЕ НЕЗАВИСИМОСТИ КАЗАХСТАНА:
ДОСТИЖЕНИЯ И ПЕРСПЕКТИВЫ» ultra-dense networks and networks with ultra-low latency. Thanks to the unmanned aerial vehicles close to the earth's surface, the integration of the flying and ground segments has taken place, when the UAVs became the temporary head nodes for the ground network clusters. At the same time, a low flight height of the UAV in such networks, measured in tens of meters, makes them suitable for use in communication networks with ultra-low delays. Conclusion Thus, in near future, ultra-dense networks with ultra-low latencies will be developed due to the decentralization of the network. Flying nets are becoming a main base for their development. Ultra-dense networks can be developed by means of ground and satellite networks convergence. However, the heights of LEO satellites will not allow their use in ultra-low-latency networks. The development of communication networks with ultra-low delays will be implemented not only due to the concepts of the Tactile Internet and Augmented Reality, but they will be also realized in medical networks, networks of unmanned vehicles, industrial robots and nanonets. REFERENCES 1. Kucheryavy, A. E. Flying sensor networks / A. E. Kucheryavy, A. G. Vladyko, R. V. Kirichek, A. I. Paramonov, A. V. Prokopyev, I. A. Bogdanov, A. A. Dort-Golts // Electrosvyaz. - 2014. - No. 9. - P. 2-5. 2. Futahi, A. Sensor networks in the heterogeneous zone of the system of long-term evolution / A. Futahi, A. I. Paramonov, A. V. Prokopyev, A. E. Kucheryavyy // Elektrosvyaz. - 2015. - No. 3. - P. 36-39. 3. Bekmezci, I. Flying Ad-Hoc Networks: A Survey / I. Bekmezci, O. K. Sahingoz, S. Temel // Ad Hoc Networks, Elsevier. - 2013. - V. 11, № 3. - P. 1254-1270. 4. Sahingoz, O. K. Networking Model in Flying Ad Hoc Networks (FANETs): Concepts and Challenges / O. K. Sahingoz // Journal of Intelligent & Robotic Systems. - 2014. - Vol. 74, No. 1. - P. 513-527. 5. Al Bahri, M.S. Study of the interaction of a fragment of a wireless sensor network with a public communication network based on an LTE gateway // Actual problems of infotelecommunications in science and education. IV International scientific-technical and scientific-methodical conference: collection of scientific articles in 2 volumes. - SPb.: SPbGUT im. M. A. Bonch-Bruevich, 2015. - P. 174-178. 6. Kucheryavy, A. E. Choice of the head node of the cluster in a homogeneous wireless sensor network / A. E. Kucheryavy, A. Salim // Elektrosvyaz. - 2009. - No. 8. - P. 32-36 7. Hoang, T. Adaptive routing in wireless sensor networks under electromagnetic interference / T. Hoang, R. Kirichek, A. Paramonov, F. Houndonougbo, A. Koucheryavy // International Conference on Information Networking (ICOIN), 2017. - IEEE, 2017. - P. 7679. 8. Shilin, P. A. Investigation of the use of UAVs as a temporary node of the VANET network / P. A. Shilin, R. V. Kirichek // Electrosvyaz. - 2016. - No. 9. - P. 54-57. 9. Nurilloev, I.N. Ensuring the connectivity of the ground segments of the summer of the sensor network using UAVs / I.N. Nurilloev, R.V. Kirichek, A.I. Paramonov, A.E. Kucheryavyy // 2nd International Scientific and Technical Conference students, graduate students and young scientists "Internet of Things and 5G" (INTHITEN 2016). - SPb.: SPbGUT, 2016.- P. 21-25. 10. Martin M., Mahfuzulhoq C., Bhaskar P., Dung P. The Tactile Internet: Vision, Recent Progress, and Open Challenges // IEEE Communications Magazine. 2016. Vol. 54. P. 138–145. 11. Meryem S., Adnan A., Mischa D. The 5G-Enabled Tactile Internet: Applications, Requirements, and Architecture // IEEE Wireless Communications and Networking Conference (WCNC). 2016. P. 1-6. 12. Razumov, A. A. Research of the influence of deliberate electromagnetic influences on communication channels of the Internet of things / A. A. Razumov, R. V. Kirichek // Successes of modern science and education. - 2016. - Vol. 5, No. 10. - P. 111-116. 13. Kucheryavy, A.E. Tactile Internet. Communication networks with ultra-low delays / A.E. Kucheryavy, M.A. Makolkina, R.V. Kirichek // Electrosvyaz. - 2016. - No. 1. - P. 44-46. 14. Al-Naggar, Y. Fuzzy Logic and Voronoi Diagram Using for Cluster Head Selectionin Ubiquitous Sensor Networks. Internet of Things, Smart Spaces and Next Generation Networks and Systems / Y. Al-Naggar, A. Koucheryavy // Lecture Notes in Computer Science (LNCS). - 2014. - Vol. 8638. - P. 319-330. 15. Zakharov, M. V. The problem of resource allocation in groups of UAVs / M. V. Zakharov, R. V. Kirichek, A. I. Paramonov // Information technologies and telecommunications. - 2015. - No. 1. - P. 62-70. 16. Dao N. Analysis of Routes in the Network based on a Swarm of UAVS / Dao N., Koucheryavy A., Paramonov A.// Lecture Notes in Electrical Engineering, 2016, Vol. 376, P. 1261-1271. International Journal of Information and Communication Technologies, Special issue, march 2022 57 жүктеу/скачать 3,05 Mb. Достарыңызбен бөлісу:
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