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Basic issues related to the Internet of Things in the 6G system
Języki publikacji
Abstrakty
Celem artykułu jest zaprezentowanie nowych rozwiązań i koncepcji Internetu Rzeczy na potrzeby systemu 6G. Omówiono tematykę proponowanych nowoczesnych rozwiązań oraz wymagań stawianych technologii 6G w celu realizacji założeń IoT, IoE oraz IIoT.. Artykuł zawiera też skrótowy przegląd generacji telefonii komórkowej pod kątem jej zastosowania w systemach Internetu Rzeczy
The aim of the article is to present new solutions and concepts of the Internet of Things for the needs of the 6G system. The subject of the proposed modern solutions and the requirements for 6G technologies in order to implement the assumptions of IoT, IoE and IIoT were discussed. The article also contains a brief overview of the generation of mobile telephony in terms of its application in the Internet of Things systems.
Wydawca
Czasopismo
Rocznik
Tom
Strony
165--168
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
- Politechnika Śląska, Katedra Metrologii, Elektroniki i Automatyki, ul. Akademicka 10, 44-100 Gliwice
autor
- Politechnika Śląska, Katedra Metrologii, Elektroniki i Automatyki, ul. Akademicka 10, 44-100 Gliwice
Bibliografia
- [1] Krupanek B., Bogacz R.: Węzły końcowe systemów Internetu Rzeczy. Zeszyty Naukowe Wydziału Elektrotechniki i Automatyki Politechniki Gdańskiej Nr 59, MKM 2018.
- [2] European Vision for the 6G Network Ecosystem. 2021.
- [3] Guo F, Yu F.R., Zhang H., Li X., Ji H., Leung V.: Enabling Massive IoT Toward 6G: A Comprehensive Survey. IEEE Internet of Things Journal PP(99), 2021.
- [4] Padhi P.K., Charrua-Santos F.: 6G Enabled Industrial Internet of Everything: Towards a Theoretical Framework. MDPI Appl. Syst. Innov. 2021.
- [5] Qadir Z., Munawar H., Saeed N., Le K.: Towards 6G Internet of Things: Recent Advances, Use Cases, and Open Challenges. IEEE IoT Journal 2021.
- [6] Soret B., Leyva-Mayorga I., Popovski P.: Inter-Plane SatelliteMatching in Dense LEO Constellations, Proceedings of the 2019 IEEE Global Communications Conference(GLOBECOM), Waikoloa, HI, USA, Dec. 2019, pp. 1–6.
- [7] Wang H., Zhao H., Wu W., Xiong J., Ma D., Wei J.: Deployment Algorithms of Flying Base Stations: 5G and Beyond With UAVs,, IEEE Internet of Things Journal, vol. 6, no. 6, pp. 10 009–10 027, Dec. 2019.
- [8] Nasrallah A., Thyagaturu A. S., Alharbi Z., Wang C., Shao X., Reisslein M., ElBakoury H.: Ultra-Low Latency (ULL) Networks: The IEEE TSN and IETF DetNet Standards and Related 5G ULL Research, IEEE Communications Surveys & Tutorials, vol. 21, no. 1, pp. 88–145, 2019.
- [9] Adeogun R, Berardinelli G., Mogensen P. E., Rodriguez I., Razzaghpour M., Towards 6G in-X Subnetworks With Sub-Millisecond Communication Cycles and Extreme Reliability, IEEE Access, vol. 8, pp. 110 172–110 188, 2020.
- [10] Giust F., Sciancalepore V., Sabella D., Filippou M. C., Mangiante S., Featherstone W., Munaretto D.: Multi-Access Edge Computing: The Driver Behind the Wheel of 5G-Connected Cars, IEEE Communications Standards Magazine, vol. 2, no. 3, pp. 66–73, Sep. 2018.
- [11] Lopez-Perez D., Garcia-Rodriguez A., Galati-Giordano L., Kasslin M., Doppler K.: IEEE 802.11be Extremely High Throughput: The Next Generation of Wi-Fi Technology Beyond 802.11ax, IEEE Communications Magazine, vol. 57, no. 9, pp. 113–119, Sep. 2019.
- [12] Li X., Feng W., Wang J., Chen Y., Ge N., Wang C.: Enabling 5G on the Ocean: A Hybrid Satellite-UAV-Terrestrial Network Solution, IEEE Wireless Communications, vol. 27, no. 6, pp. 116–121, Dec. 2020.
- [13] Mohammadkarimi M., Raza M. A., Dobre O. A.: Signature-Based Nonorthogonal Massive Multiple Access for Future Wireless Networks: Uplink Massive Connectivity for Machine-Type Communications, IEEE Vehicular Technology Magazine, vol. 13, no. 4, pp. 40–50, Dec. 2018.
- [14] Shafique K., Khawaja B. A., Sabir F., Qazi S., Mustaqim M.: Internet of Things (IoT) for Next-Generation Smart Systems: A Review of Current Challenges, Future Trends and Prospects for Emerging 5G IoT Scenarios, IEEE Access, vol. 8, pp. 23 022–23 040, 2020.
- [15] Habibzadeh H., Dinesh K., Shishvan O. R., Boggio-Dandry A., Sharma G., Soyata T.: A Survey of Healthcare Internet of Things (HIoT): A Clinical Perspective, IEEE Internet of Things Journal, vol. 7, no. 1, pp. 53–71, Jan. 2020.
- [16] Nayak S., Patgiri R.: 6G Communication Technology: A Vision on Intelligent Healthcare, pp. 1–18, 2021.
- [17] Mucchi L., Jayousi S., Caputo S., Paoletti E., Zoppi E., Geli S., Dioniso P.: How 6G Technology Can Change the Future Wireless Healthcare, Proceedings of the 2020 2nd 6G Wireless Summit (6G SUMMIT), Levi, Finland, Mar. 2020, pp. 1–6.
- [18] Kalalas C., Alonso-Zarate J.: Massive Connectivity in 5G and Beyond: Technical Enablers for the Energy and Automotive Verticals, Proceedings of the 2020 2nd 6G Wireless Summit(6G SUMMIT), Levi, Finland, Mar. 2020, pp. 1–5.
- [19] Liu C., Feng W., Chen Y., Wang C. X., Ge N.: Cell-Free Satellite UAV Networks for 6G Wide-Area Internet of Things, IEEE Journal on Selected Areas in Communications, pp. 1–1, 2020.
- [20] Dong C., Shen Y., Qu Y., Wu Q., Wu F., Chen G.: UAVs as a Service: Boosting Edge Intelligence for Air-Ground Integrated Networks, Mar. 2020, arXiv: 2003.10737.
- [21] Chu J., Chen X., Zhong C., Zhang Z.: Robust Design for NOMA Based Multibeam LEO Satellite Internet of Things, IEEE Internet of Things Journal, vol. 8, no. 3, pp. 1959–1970, Feb. 2021.
- [22] Liu C., Feng W., Tao X., Ge N.: MEC-Empowered Non-Terrestrial Network for 6G Wide-Area Time-Sensitive Internet of Things, Mar.2021, arXiv: 2103.11907.
- [23] Deb P., Misra S., Sarkar T., Mukherjee A.: Magnum: A Distributed Framework for Enabling Transfer Learning in B5G-Enabled Industrial-IoT, IEEE Transactions on Industrial Informatics, pp. 1–1, 2020.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
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