"JOURNAL OF RADIO ELECTRONICS" (Zhurnal Radioelektroniki ISSN 1684-1719, N 11, 2017

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ANALYSIS OF NOISE IMMUNITY FOR SIGNAL CONSTRUCTIONS BASED ON OFDM AND ERROR-CORRECTING CODES ROBUSTED FOR SIGNAL INFLUENCE CONCENTRATED ON A RANGE

 

A. S. Zudilin, L. E. Nazarov

Fryazinio Branch of Kotelnikov Institute of Radioengineering and Electronics of Russian Academy of Sciences, Vvedensky Sq.1, Fryazino Moscow region 141190, Russia 

 

The paper is received on October 31, 2017

 

Abstract. The focus of this paper is directed towards the development and investigation of efficient technique for narrow-band mitigation for signal construction based on OFDM signals and on error-correcting codes. In this paper the frequency-domain algorithms for noise reduction are proposed. The analysis of noise immunity for these signal constructions is implemented for low-density parity-check code and for signal influence concentrated on a range.

Key words: OFDM, noise reduction, narrow-band noise.

References

1. Liu H., Li G. OFDM-Based Broadband Wireless Networks. Hoboken: John Wiley & Sons. 2005. 251 p.

2. Vishnevskii V.M., Lahov A.I., Portnoi S.L., Shahnovich I.V. Shirokopolosnie seti peredachi. [Broadband communication]. Moscow, Techno-Sphere Publ. 2005. 592 p. (In Russian)

3. Kalinin V.I., Radchenko D.E., Cherepenin V.A. The error-performances of digital channels based on continue noise signals under spectral modulation. Radiotechnika - Radioengineering, 2015, No. 8, pp. 84-94. (In Russian)

4. Shinakov Y.S.Power spectral density of interference caused by nonlinear distortions in devices with amplitude-phase conversion.  Journal of Communications Technology and Electronics, 2013, Vol. 58, No.10, pp. 1024-1034. DOI: 10.1134/S106422691310001X

5. Shinakov Y.S. Two methods of output signal power calculation for devices with amplitude-phase conversion.  Radiotechnika - Radioengineering, 2016, No.2, pp. 66-71. (In Russian)

6. Nazarov L.E., Zudilin A.S. Estimating the power and efficiency of intermodulation interferences under the OFDM-signal-envelope limitation. Journal of Communications Technology and Electronics, 2015, Vol. 60, No.5, pp. 489-495. DOI: 10.1134/S1064226915050071

7. Nazarov L.E., Zudilin A.S. Techniques for estimating the power of the intermodulation interferences of orthogonal frequency-division multiplexing signals. Journal of Communications Technology and Electronics, 2014, Vol. 59, No.2, pp. 158-163. DOI: 10.1134/S1064226914020041

8. Nazarov L.E., Zudilin A.S. Techniques for narrow band noise reduction for OFDM signals.  Russian microelectronics, 2013, No.6 (104), pp. 45-51.

9. Johnson S.J. Iterative Error Correction: Turbî, Low-Density Parity-Check and Repeat-Accumulate Codes. Cambridge. University Press. UK. 2010. 356 p.

10. Research and Development for Space Data System Standards. Low density parity check codes for use in near-earth and deep space applications. Experimental specification CCSDS 131.1-O-2. September 2007.

 

For citation:

A. S. Zudilin, L. E. Nazarov. Analysis of noise immunity for signal constructions based on OFDM and error-correcting codes robusted for signal influence concentrated on a range. Zhurnal Radioelektroniki - Journal of Radio Electronics, 2017, No. 11. Available at http://jre.cplire.ru/jre/nov17/4/text.pdf. (In Russian)