MATHEMATICAL MODELING OF THE PROCESS OF DRAWING AN OPTICAL FIBER USING THE LANGEVIN EQUATION

Aliya Tergeussizova

aliya55@mail.ru
Al-Farabi Kazakh National University, Faculty of Information technology/Department Artificial intelligence and Big Date (Kazakhstan)
http://orcid.org/0000-0002-5084-8937

Abstract

In order to design stochastic pulse frequency systems for automatic control of objects with delay, this article shows how we obtained their models in the form of stochastic differential equations. The method of dynamic compensation of objects with delay is considered. A stochastic differential system in the Langevin form is obtained.


Keywords:

transport delay, object with delay, dynamic compensation method, Langevin differential equations

Aitchanov B.H., Aitchanova Sh.K., Baimuratov O.A., Aldibekova A.N.: A Simplified Model of the Control System with PFM. XII International Conference on Information Technology and Engineerin. 17(5)/2015, 1465–1468.
  Google Scholar

Aitchanov B.H., Aldibekova A.N.: Primenenie dinamicheskogo chastotnoimpulsnogo modulyatora v sistemah upravleniya s ispolzovaniem yadernogo magnitnogo rezonansa v ustroystvah omagnichivaniya zhidkostey. Vestnik KazNTU.
  Google Scholar

Aitchanov B.H., Baimuratov O.A., Aldibekova A.N.: Pulse – Frequency control system of the fluids magnetization of the used nulear magnetic resonance. The 2nd International Virtual Conference on Advanced Scientific Results (SCIECONF – 2014), 473–477.
  Google Scholar

Aitchanov B.H., Tergeusizova A.S.: Tehnologicheskij process vytjazhki opticheskih sterzhnej kak objekt avtomatizirovannogo upravlenija. Doklady Nacional'noj akademii nauk Respubliki Kazahstan 2/2017, 91–95.
  Google Scholar

Aitchanov B.H.: Metody matematicheskogo opisanija chastotno-impulsnyh sistem upravlenija obektami s zapazdyvaniem. Vestnik KazNTU 2(30)/2002, 72–82.
  Google Scholar

Aitchanov B.H.: Time-domain quantization in dynamic pulse-frequency systems with transport delay. Poisk, Natural and technical sciences series, 209–214.
  Google Scholar

Aitzhanov B.Kh., Kurmanov B.K., Umarov T.F.: Dynamic Pulse Frequency Modulation in Objects Control with Delay. Asian Journal of Control 14(6)/2012, 1662–1668.
  Google Scholar

Aitzhanov B.Kh., Nikulin V.V., Baimuratov O.A.: Mathematical Modeling of Digital Pulse-Frequency Modulation Control Systems Developed for Objects with Transport Delay. The Chinese Control and Decision Conference 2013, 1407–1411.
  Google Scholar

Chostkovskij D.B.: Strukturnyj sintez sistemy upravlenija processom vytjazhki gradientnyh opticheskih volokon. Vestnik SamGTU. Serija Tehnicheskie nauki 4(27)/2010, 73–78.
  Google Scholar

Friman R.: Volokonno-opticheskie sistemy svjazi. Tehnosfera, Moscow 2003.
  Google Scholar

http://oplib.ru – Open Library – Open library of educational information (available 15.05.2019).
  Google Scholar

Listvin A.V., Listvin V.N., Shvyrkov D.V.: Opticheskie volokna dla liniy sviazi. LESARart, Moscow 2003.
  Google Scholar

Roy P., et al.: Active Optical Fibers: New design and alternative method of fabrication. Photonics, Dehli 2008.
  Google Scholar

Sandoz F., et al.: A Novel process to manufacture high efficiency laser fibers. Photonics, Dehli 2008.
  Google Scholar

Sarkar A., Orchanian B., Chan A.: A Novel VAD process. Proceedings of the International Wire & Cable Symposium, Providence 2008.
  Google Scholar

Zhiro A.: Tehnologii proizvodstva opticheskih volokon. Obzor poslednih razrabotok. Nauka i tehnika 4/2009, 22–27.
  Google Scholar

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Published
2019-06-21

Cited by

Tergeussizova, A. (2019). MATHEMATICAL MODELING OF THE PROCESS OF DRAWING AN OPTICAL FIBER USING THE LANGEVIN EQUATION. Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, 9(2), 64–67. https://doi.org/10.5604/01.3001.0013.2551

Authors

Aliya Tergeussizova 
aliya55@mail.ru
Al-Farabi Kazakh National University, Faculty of Information technology/Department Artificial intelligence and Big Date Kazakhstan
http://orcid.org/0000-0002-5084-8937

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