Standards as a basis for information and communication technologies
DOI:
https://doi.org/10.30837/2522-9818.2024.4.153Keywords:
association; multimode fiber; information technology; consortium; standardAbstract
The subject matter of the article is study of aspects of the activity of the consortium of fiber optics technologies and the engineering committee of the telecommunications industry association using current international standards of information and communication technologies. The goal of the work is to investigate the principles of operation of the consortium of fiber optics technologies for the development of ICT standards and the peculiarities of the activities of the engineering committee of the telecommunications industry association regarding telecommunication standards and their relationship. The following tasks were solved in the article: to conduct a review of the literature using the standards of information and telecommunication technologies based on cable systems; study the basic principles of the work of the consortium of fiber-optical technologies in the process of developing standards; determine the peculiarities of the activities of the engineering committee of the association of the telecommunications industry in the context of the implementation of telecommunication standards; analyze existing international standards for the design, installation, installation and maintenance of fiber optic systems. Methods: analytical method with systematic analysis (study of existing international standards of cable systems with analysis of the interaction of these standards) and comparative analysis (comparison of types of multimode fiber according to international standards, as well as comparison of international standards with DSTU standards); Results: the results of the study provide a comparative analysis of international standards that provide the design, laying, installation and maintenance of fiber optic networks. On the basis of ISO/IEC 11801, IEC 60793, TIA-568, TIA/EIA 492 AAAx and ITU-T standards, comparative possibilities of types of multimode fibers for each of the standards were carried out. Conclusions: The study confirms the importance of the fiber optics technology consortium in partnership with the telecommunications industry association to develop new technologies and standards. Based on the analysis of Ukrainian standards that meet international requirements for the use of information and communication technologies in Ukraine, the need for their implementation for the development of national infrastructure was clarified, since these standards are important for the integration of Ukraine into the global information space, ensuring compliance of the national telecommunication infrastructure with international requirements, which will improve the quality of service provision, improve network reliability and support future growth in the information and communication technology sector. Practical benefits: improvement of development processes, implementation based on the use of international (TIA) and Ukrainian (DSTU) standards of information and communication technologies. Scientific novelty: a comprehensive study of the relationship between standardization processes and practical aspects of the design and maintenance of fiber optic networks was conducted.
References
Список літератури
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ДСТУ ISO/IEC 11801-1:2018 Інформаційні технології. Кабельні системи загальної призначеності для приміщень користувачів. Частина 1. Загальні вимоги (ISO/IEC 11801-1:2017/Cor 1:2018, IDT). Поправка № 1:2018. URL: https://online.budstandart.com/ua/catalog/doc-page.html?id_doc=80533
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References
Yang, T. (2019), "ICT technologies standards and protocols for active distribution network", Smart power distribution systems. Academic Press. P. 205–230. DOI: https://doi.org/10.1016/B978-0-12-812154-2.00010-9
Reid, R. (2021), "Fiber cabling fundamentals, installation, and maintenance", Data Center Handbook: Plan, Design, Build, and Operations of a Smart Data Center. P. 291–321. DOI: https://doi.org/10.1002/9781119597537.ch17
Goldsmith, E. (2024), "FOTC Standards Explorer". TIA’s Fiber Optics Tech Consortium. URL: https://www.tiafotc.org/standards/fotc-standards-explorer/
Romaniuk, R. S., Wójcik, W., Smolarz, A. (2018), "Development of optical fiber technology in Poland–2018", Optical Fibers and Their Applications. P. 99–104. DOI: https://doi.org/10.2478/v10177-010-0012-5
Konyshev, V. A. et al. (2023), "Trends of and Prospects for the Development of Fiber-Optic Communication Systems", Bulletin of the Lebedev Physics Institute. Vol. 50. №. Suppl 4. P. 435–S450. DOI: https://doi.org/10.3103/S1068335623160078
Ferrari, A. et al. (2020), "Assessment on the achievable throughput of multi-band ITU-T G. 652. D fiber transmission systems", Journal of Lightwave Technology. Vol. 38. №. 16. P. 4279–4291. URL: https://opg.optica.org/jlt/abstract.cfm?URI=jlt-38-16-4279
Luo, Y., Effenberger, F. (2024), "What is beyond 50G: future standards of optical access networks", Journal of Optical Communications and Networking. Vol. 16. №. 7. P. 106–C112. DOI: https://opg.optica.org/jocn/abstract.cfm?URI=jocn-16-7-C106
Valerie, M. (2024), "IEEE 802.3 Single-mode Optical Fiber Ethernet Standards. TIA’s Fiber Optics Tech Consortium". URL: https://www.tiafotc.org/ieee-802-3-ethernet-standards-update/singlemode-standards-update/
Bertine, H., Faynberg, I., Lu, H. L. (2004), "Overview of data and telecommunications security standardization efforts in ISO, IEC, ITU, and IETF", Bell Labs Technical Journal. Vol. 8. №. 4. P. 203–229. DOI: https://doi.org/10.1002/bltj.10096
Elliot, B. J. (2018), "Designing a Structured Cabling System to ISO 11801", CRC Press. DOI: https://doi.org/10.1201/9781315214696
Jew, A. (2021), "Data Center Telecommunications Cabling and TIA Standards", Data Center Handbook: Plan, Design, Build, and Operations of a Smart Data Center. P. 193–210. DOI: https://doi.org/10.1002/9781119597537.ch12
Krohn D. A. "Fiber optic sensor consortium activities: Opportunities and barriers." Proc. of SPIE Vol. Vol. 5589. 2004. P. 34–43. DOI: https://doi.org/10.1117/12.582567
Valerie, M. (2024), "TIA Family of Standards", TIA’s Fiber Optics Tech Consortium. URL: https://www.tiafotc.org/tia-standards-update/
Dorosz, J., & Romaniuk, R. S. (2014), "Development of optical fiber technology in Poland". Optical Fibers and Their Applications. Vol. 9228. SPIE, 2014. DOI: https://doi.org/10.1117/12.2047303
Jew, A. (2014), "Data Center Telecommunications Cabling". Data Center Handbook. P. 257–264.
Woodward, B. (2014), "Cabling: the complete guide to copper and fiber-optic networking". John Wiley & Sons.
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Optical Fiber Types. TIA’s Fiber Optics Tech Consortium, 2024. URL: https://www.tiafotc.org/optical-fiber-types/
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