FUTURE 6G NETWORK FUNCTIONALITY AND PERFORMANCE

Автор(и)

  • Yana Kremenetskaya State University of Telecommunications of the Ministry of Education and Science of Ukraine, Україна https://orcid.org/0000-0001-5110-326X
  • Anatoliy Makarenko State University of Telecommunications of the Ministry of Education and Science of Ukraine, Україна
  • Oleksiy Hetmanets State University of Telecommunications of the Ministry of Education and Science of Ukraine, Україна
  • Nataliya Trintina State University of Telecommunications of the Ministry of Education and Science of Ukraine, Україна

Ключові слова:

БЕЗПРОВОДОВА МЕРЕЖА 6 G

Анотація

In this article we analyze information transfer rates, new applications, implementation features of telecommunication systems in the terahertz frequency range. The feature of working in the terahertz range is based on the properties of materials, associated with the problems of the dependence of bandwidth on power consumption. It is shown that terahertz frequencies are likely to be the first wireless spectrum that can provide real-time calculations.

Функциональные возможности и производительность
будущих сетей 6G

 

В работе проанализировано скорости передачи информации, новые приложения, особенности реализации телекоммуникационных систем в терагерцовом диапазоне частот. Особенностью работы в терагерцовом диапазоне основывается на свойствах материалов, связанных с проблемами зависимости пропускной способности от потребляемой мощности. Показано, что терагерцевые частоты, вероятно, будет первым беспроводным спектром, который может обеспечить расчеты в режиме реального времени.

 

Біографії авторів

Yana Kremenetskaya, State University of Telecommunications of the Ministry of Education and Science of Ukraine

Ph.D., Assoc. Department of Telecommunication Technologies of the State University of Telecommunications

Anatoliy Makarenko, State University of Telecommunications of the Ministry of Education and Science of Ukraine

Ph.D., Assoc. Department of Information and Communication Technologies of the State University of Telecommunications

Oleksiy Hetmanets, State University of Telecommunications of the Ministry of Education and Science of Ukraine

Ph.D., Assoc., Head of the Department of Telecommunication Technologies of the State University of Telecommunications

Nataliya Trintina, State University of Telecommunications of the Ministry of Education and Science of Ukraine

Ph.D., Assoc. Department of Energy Efficient Technologies, State University of Telecommunications

Посилання

Rappaport T.S., Xing Y., Kanhere O., Ju S., Alkhateeb A.,. Trichopoulos G. C, Madanayake A., Mandal S., “Wireless Communications and Applications Above 100 GHz: Opportunities and Challenges for 6G and Beyond (Invited),” IEEE ACCESS, submitted Feb. 2019.

Ju S., Shah S., Javed M., Li J., Palteru G., Robin J., Xing Y., Kanhere O., and Rappaport T. S., “Scattering mechanisms and modeling for terahertz wireless communications,” IEEE Int. Commun. Conf. (ICC), May 2019, pp. 1-7.

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Як цитувати

Kremenetskaya, Y., Makarenko, A., Hetmanets, O., & Trintina, N. (2020). FUTURE 6G NETWORK FUNCTIONALITY AND PERFORMANCE. Збірник матеріалів Міжнародної науково-технічної конференції «ПЕРСПЕКТИВИ ТЕЛЕКОМУНІКАЦІЙ». вилучено із https://conferenc-journal.its.kpi.ua/article/view/200914

Номер

2020: Матеріали XIV Міжнародної науково-технічної конференції "Перспективи телекомунікацій - 2020"

Розділ

Безпроводові телекомунікаційні системи та технології, системи 5G, Інтернет речей

Ліцензія

Авторське право (c) 2020 Yana Kremenetskaya, Anatoliy Makarenko, Oleksiy Hetmanets, Nataliya Trintina

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