ANALYSIS OF SIGNAL PROCESSING METHODS IN MIMO SYSTEMS

Article Sidebar

PDF
DOI: https://doi.org/10.20998/2522-9052.2018.3.15
Keywords:
signal-interfering environment, information transfer speed, bit error probability, spatial-temporal processing, MIMO system, parallel channels

Main Article Content

Ruslan Zhyvotovskyi
Central research Institute of weapons and military equipment of Armed Forces of Ukraine, Kyiv
https://orcid.org/0000-0002-2717-0603
Alexander Momit
Military unit A2393, Odessa
https://orcid.org/0000-0002-8901-7006

Abstract

Conflicts of the last decades (the Chechen war (Russian Federation), armed confrontation in the countries of the Middle East and North Africa, anti-terrorist operation in the territory of Donetsk and Lugansk regions (Operation of the United Nations)) go beyond the existing (traditional) forms and methods of warfare, conducted on the background of information and psychological operations and the active using of electronic emitters. Therefore, provision of sustainable communication is one of the priority directions of scientific research. One of the directions of increasing the noise immunity of radio communication devices is using of the multi-antenna radio communication systems. However, they are complex technical systems. There are many approaches to increase the impedance of multi-antenna systems, but the authors of this article limited themselves to considering only the methods of signal processing, namely orthogonal spatial-temporal codes. During the study, the authors used the basic provisions of the theory of communication, the theory of antennas, the theory of noise protection and signal-code structures. In the course of the analysis, the authors found, that the computational complexity of the orthogonal codes used in MIMO systems is directly proportional to the number of transmitting antennas in the system, which leads to a linear increase in the number of computational operations in the processing of signals was using mentioned spatio-temporal codes. However, this type of spatial-temporal codes has high energy efficiency in MIMO systems with a small number of antennas. The authors propose to develop a method of space-time coding of signals in multi-antenna radio systems with high energy and spectral efficiency, when the proposed method had an acceptable computational complexity.

Article Details

How to Cite
Zhyvotovskyi, R., & Momit, A. (2018). ANALYSIS OF SIGNAL PROCESSING METHODS IN MIMO SYSTEMS. Advanced Information Systems, 2(3), 93–96. https://doi.org/10.20998/2522-9052.2018.3.15
Issue
Vol. 2 No. 3 (2018): Advanced Information Systems
Section
Information systems research
Author Biographies

Ruslan Zhyvotovskyi, Central research Institute of weapons and military equipment of Armed Forces of Ukraine, Kyiv

Candidate of Technical Sciences, Head of the Chair of Research - Deputy Head of Research Department

Alexander Momit, Military unit A2393, Odessa

Head of Department

References

Shyshatskiy, A.V., Bashkirov, O.M. and Kostina, O.M. (2015), “Development of integrated systems and data for Armed Forces”, Arms and military equipment, No 1(5), pp. 35-40. available at :

http://journals.uran.ua/index.php/2414-0651/issue/view/1%285%29%202015 (last accessed April 15, 2018).

Vishnevskiy, V.M., Lyahov, A.I., Portnoy, S.L. and Shahnovich I.V. (2005), Broadband wireless communication networks, Technosphere, Moscow, 592 p.

Volkov, L.N., Nemirovkiy, M.S. and Shinakov, Yu.S. (2005), Digital radio communication systems: basic methods and characteristics: a tutorial, Moscow, Eco-Trends, 392 p.

Goldsmith A. (2011) Wireless communications, Moscow, Technosphere, 904 p.

Slusar V. (2005), “MIMO systems: principles of construction and signal processing”, Electronics: science, technology, business. No. 8, pp. 52–58, available at http://www.electronics.ru/files/article_pdf/0/article_974_409.pdf (last accessed April 15, 2018).

Veselovskiy, K. (2006), Mobile radio communication systems, Hot line Telecom, Moscow, 536 p.

Ehab M. Shaheen and Mohamed, Samir (2013), “Jamming Impact on the Performance of MIMO Space Time Block Coding Systems over Multi-path Fading Channel”, REV Journal on Electronics and Communications, Vol. 3, No. 1–2, January – June, pр. 68 – 72.

Slusar, V. I. (2008), “Military communications of NATO countries: problems of modern technologies”, Electronics: science, technology, business. No. 4, pp. 66 - 71. available at: http://www.electronics.ru/files/article_pdf/0/article_403_181.pdf (last accessed April 15, 2018).

Bessai H. (2005), MIMO Signals and Systems, : Springer science and Business Media, NY, USA, 206 p.

Lee J., Han J. K. and Zhang J. (2009), “MIMO Technologies in 3GPP LTE and LTE-Advanced”, EURASÏP Journal on Wireless Communications and Networking, pp. 1-10.

Kuhzi, V. (2006), Wireless Communications over MIMO Channels. Applications to CDMA and Multiple Antenna Systems, John Wiley Sons, U.K., Chichester, 363 p.

Kuvshinov O.V. and Minochkin D.A. (2006) “Analysis of the characteristics of radio access systems with MIMO technology”, Collection of scientific works of the Military institute of Kyiv National Taras Shevchenko University, No. 3, MIKNU, Kyiv, pp. 51 – 56.