Microwave photonic polyharmonic probing  for fiber optical telecommunication structures and measuring systems sensors monitoring

Ilnur I. Nureev; Oleg G. Morozov; Artur F. Agliyullin; Vadim V. Purtov; Dmitry L. Ovchinnikov; Vladimir I. Anfinogentov; Vasiliy Yu. Vinogradov

doi:10.1117/12.2318738

6 June 2018 Microwave photonic polyharmonic probing for fiber optical telecommunication structures and measuring systems sensors monitoring

Ilnur I. Nureev, Oleg G. Morozov, Artur F. Agliyullin, Vadim V. Purtov, Dmitry L. Ovchinnikov, Vladimir I. Anfinogentov, Vasiliy Yu. Vinogradov

Author Affiliations +

Proceedings Volume 10774, Optical Technologies in Telecommunications 2017; 107741J (2018) https://doi.org/10.1117/12.2318738
Event: XV International Scientific and Technical Conference on Optical Technologies in Telecommunications, 2017, Kazan, Russian Federation

Abstract

In this article, the advantages of the unity of sensory and telecommunication approaches will be shown, using examples of monitoring systems for second-generation telecommunication passive optical networks (PON). In comparison with the TDM network architecture, its combination with the WDM architecture is much more efficient, both in terms of the number of channels per fiber, and in terms of the number of channels per laser. This architecture showed a high coverage of monitoring objects by sensors in optically efficient network organization with their small number. Theoretically, the number of sensors in the fiber optical sensor system (FOSS) can be expanded to 256 sensors using two fibers. Note that in the fiber optical telecommunication system (FOTS) the maintenance of 256 PON TDM-WDM terminals is a typical requirement. Thus, monitoring tasks for FOTS and FOSS PON are based on unified approaches. In general, when designing a FOTS, it is necessary to take into account the close relationship that exists between all the factors that determine the characteristics of the network elements, with the existing economic conditions, which will create an optimal network.

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Ilnur I. Nureev, Oleg G. Morozov, Artur F. Agliyullin, Vadim V. Purtov, Dmitry L. Ovchinnikov, Vladimir I. Anfinogentov, and Vasiliy Yu. Vinogradov "Microwave photonic polyharmonic probing for fiber optical telecommunication structures and measuring systems sensors monitoring", Proc. SPIE 10774, Optical Technologies in Telecommunications 2017, 107741J (6 June 2018); https://doi.org/10.1117/12.2318738

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