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Binary matrix synthesis for broadband communication signal shaping

Keywords:

A.Yu. Grishentsev – Ph. D. (Eng.), Associate Professor, ITMO University (Saint Petersburg). E-mail: tigerpost@ya.ru A.G. Korobeinikov – Dr. Sc. (Eng.), Professor, Deputy Director for Science, SPb branch of Pushkov Institute of Ter-restrial Magnetism, Ionosphere and Radio Wave Propagation of RAS. E-mail: korobeynikov_a_g@mail.ru E.N. Velichko – Ph. D. (Eng.), Associate Professor, Peter The Great St.Petersburg Polytechnic University. E-mail: velichko-spbstu@yandex.ru E.K. Nepomnyashchaya – Master of Physics, Engineer, Peter The Great St.Petersburg Polytechnic University. E-mail: elina.nep@gmail.com S.V. Rozov – Ph. D. (Eng.), Associate Professor, Peter The Great St.Petersburg Polytechnic University. E-mail: svroz@yandex.ru


In the paper the search of binary signature matrix with specific autocorrelation functions for broadband communication signal shaping is considered. A new class of binary signature matrix is presented. The methods of optimization of matrix synthesis algorithm and alphabet formation are suggested, and the conversion of binary signatures to broadband signal is discussed. An example of generation and recognition of message symbol is presented. The suggested approach is valuable for message transmission in broadband radio communication.
References:

 

  1. Ipatov V. SHirokopolosnye sistemy i kodovoe razdelenie signalov. Principy i prilozhenija. M.: Tekhnosfera. 2007. 488 s.
  2. ZHarinov O.O., ZHarinov I.O. Sintez i optimizacija vychislitelnykh algoritmov obrabotki signala na osnove korreljacionno-ehkstremalnogo metoda v ehlektrokardiografii vysokogo razreshenija // Izvestija VUZov. Priborostroenie. 2014. T. 57. № 1. S. 29−38.
  3. Simon M.K., Omura J.K., Scholtz R.A., Levitt B.K. Spread Spectrum Communication Handbook. McGraw-Hill. NewYork. 1994.
  4. Sedzhevik R. Algoritmy na C++ / Per. s angl. M.: OOO «I.D. Viljams». 2011. 1056 s.
  5. Prata S. JAzyk programmirovanija C++. Lekcii i uprazhnenija. Izd. 6‑e / Per. s angl. M.: OOO «I.D. Viljams». 2013. 1248 s.
  6. Grishencev A.JU. Teoremy ob umenshenii razmernosti prostranstva pri korreljacii i svertke // ZHurnal radioehlektroniki (ehlektronnyjj zhurnal). 2015. № 1. URL: http://jre.cplire.ru/jre/jan15/19/text.pdf.
  7. Gantmakher F.R. Teorija matric. M.: Nauka. 1967. 576 s.
  8. Novikov S.P., Tajjmanov I.A. Sovremennye geometricheskie struktury i polja. M.: MCNMO. 2005. 584 s.
  9. Oppengejjm A., SHafer R. Cifrovaja obrabotka signalov. Izd. 2‑e, ispr. M.: Tekhnosfera. 2009. 856 s.
  10. Grishencev A.JU., Korobejjnikov A.G. Dekompozicija n‑mernykh cifrovykh signalov po bazisu prjamougolnykh vspleskov // Nauchno-tekhnich. vestnik informacionnykh tekhnologijj, mekhaniki i optiki. 2012. № 4 (80). S. 75−79.
  11. Gerasimov I.V., Safjannikov N.M., JAkimovskijj D.O. Slozhno-funkcionalnye bloki smeshannykh sistem na kristalle: avtomatizacija funkcionalnogo proektirovanija / Pod red. I.V. Gerasimova. SPb.: EHLMOR. 2012. 237 s.

 

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