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2023 | OriginalPaper | Chapter

Increasing Efficiency in the Correlation Processing of Information Signals for Radar

Authors : Juliy Boiko, Lesya Karpova

Published in: Proceedings of Fourth International Conference on Communication, Computing and Electronics Systems

Publisher: Springer Nature Singapore

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Abstract

This chapter investigates mathematical models of radar echo signals. The correlation properties of these signals were evaluated. A method of increasing the radar resolution based on the autocorrelation estimation algorithm is proposed. Potential possibilities of the method are investigated. The main contribution of this chapter is the consideration of the signal detection algorithm in accordance with the signal database. The main goal is to increase the degree of their resolution and increase noise immunity during coherent processing. A model of the radar echo signal is presented, taking into account the variety of possible probing factors. The experimental results made it possible to estimate the potential gain in terms of signal/noise when using the method. The resulting increase in resolution reached several times at a fixed signal/noise level. The findings will be useful in improving radar signal processing algorithms taking into account fluctuation components in their complex envelope.

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Literature
1.
Dürr A et al (2019) High-resolution 160-GHz imaging MIMO radar using MMICs with on-chip frequency synthesizers. IEEE Trans Microw Theor Tech 67(9):3897–3907CrossRef
2.
Cerutti-Maori D, Sikaneta I, Klare J, Gierull CH (2014) MIMO SAR processing for multichannel high-resolution wide-swath radars. IEEE Trans Geosci Remote Sens 52(8):5034–5055CrossRef
3.
Ma C et al (2020) Microwave photonic imaging radar with a sub-centimeter-level resolution. J Lightwave Technol 38(18):4948–4954CrossRef
4.
Alotaibi M (2021) Correction to: low noise moving target detection in high resolution radar using binary codes. EURASIP J Adv Signal Process 2021:12CrossRef
5.
JieLa Q, Wang H, Hu S et al (2020) Echo simulation of dual polarization Doppler weather radar based on the physical model. J Wirel Com Netw 2020:196CrossRef
6.
Sun B, Cao Y, Chen J et al (2014) Compressive sensing imaging for general synthetic aperture radar echo model based on Maxwell’s equations. EURASIP J Adv Signal Process 2014:153CrossRef
7.
Kaydok U (2018) Baseband signal modelling of chaff echoes for coherent pulsed radars. In: 2018 IEEE radar conference (RadarConf18). IEEE Press, Oklahoma City, pp 0642–0646
8.
Donets IV, Reizenkind YA, Shevchenko VN (2018) Experimental testing of the variational procedure for constructing multidimensional radio images of echo signals in non-emitting radars. Optoelectron Instrum Proc 54:162–167CrossRef
9.
Yu A, Idubore O, Dimian M (2016) Radar cross section calculation for subsurface objects. In: 2016 IEEE radar conference (RadarConf). IEEE Press, Philadelphia, pp 1–5
10.
Lee J, Bang H (2018) Radial basis function network-based available measurement classification of interferometric radar altimeter for terrain-aided navigation. IET Radar Sonar Navig 12(9):920–930CrossRef
11.
Ji S, Zhang Z, Yan H et al (2016) Application of fractal algorithms of coastline echo’s generation on marine radar simulator. Vis Eng 4:8CrossRef
12.
Bychkov VE, Mrachkovsky OD, Pravda VI (2014) About results of simulation of multi-channel radar detector. Radioelectron Commun Syst 57:306–310CrossRef
13.
Virkki A, Muinonen K (2015) Radar scattering by boulders studied using geometric optics. Planet Space Sci 118:277–284CrossRef
14.
Johansen PM (1999) Time-domain version of the physical theory of diffraction. IEEE Trans Antennas Propag 47(2):261–270CrossRef
15.
Hristopulos DT (2020) Random fields for spatial data modeling. Springer, NetherlandsCrossRef
16.
17.
Schmidt V (2014) Stochastic geometry, spatial statistics and random fields. Springer, Berlin
18.
Lombardini F, Gini F (2005) Model order selection in multi-baseline interferometric radar systems. EURASIP J Adv Signal Process 108784
19.
Boiko J, Karpova L, Eromenko O, Havrylko Y (2020) Evaluation of phase-frequency instability when processing complex radar signals. Int J Elec Comp Eng 10(4):4226–4236
20.
Daim TJ, Lee RMA (2019) A weighted least squares consideration for IR-UWB radar-based device-free object positioning estimation for indoor environment. Indonesian J Elec Eng Comp Sci 15(2):894–901CrossRef
21.
Nieh J, Romero RA (2018) Comparison of ambiguity function of eigenwave form to wideband and pulsed radar waveforms: a comprehensive tutorial. J Eng 2018(4):203–221CrossRef
22.
Zeyang Z, Huang J (2021) Mixed design of radar/infrared stealth for advanced fighter intake and exhaust system. Aerosp Sci Technol 110:106490
23.
Xu-Dong H et al (2017) Research on multi-target resolution process with the same beam of monopulse radar. In: 2017 IEEE 17th international conference on communication technology (ICCT). IEEE Press, Chengdu, pp 1102–1105
24.
Khudov HS et al (2019) The proposals for synchronization positions of MIMO radar system on the basis of surveillance radars. In: 2019 IEEE international scientific-practical conference problems of infocommunications, science and technology (PIC S&T). IEEE Press, Kyiv, pp 547–551
25.
Palm S, Sommer R, Stilla U (2018) Mobile radar mapping—subcentimeter SAR imaging of roads. IEEE Trans Geosci Remote Sens 56(11):6734–6746CrossRef
26.
Li HY, Li Q, Xue K et al (2013) Research into influence of Gaussian beam on terahertz radar cross section of a conducting cylinder. J Infrared Milli Terahz Waves 34:289–298CrossRef
27.
Lai CD, Murthy DN, Xie M (2006) Weibull distributions and their applications. In: Springer handbooks, pp 63–78
28.
Lee BS, Winder WF, Smith D (1994) Design of an antenna subsystem for a semi active radar target. In: Proceedings of MELECON ‘94. Mediterranean electrotechnical conference. IEEE Press, Antalya, pp 1158–1161
29.
Manziuk EA et al (2020) Approach to creating an ensemble on a hierarchy of clusters using model decisions correlation. Przegl elektrotechniczny 1(9):110–115CrossRef
30.
Zeng R et al (2017) Joint estimation of frequency offset and Doppler shift in high mobility environments based on orthogonal angle domain subspace projection. IEEE Trans Veh Technol 67(3):2254–2266CrossRef
31.
Galiuk SD, Kushnir MY, Politanskyi RL (2011) Communication with use of symbolic dynamics of chaotic systems. In: 21st IEEE international Crimean conference microwave & telecommunication technology. IEEE Press, Sevastopol, pp 423–424
32.
Schvartzman D, Curtis CD (2019) Signal processing and radar characteristics (SPARC) simulator: a Flexible dual-polarization weather-radar signal simulation framework based on preexisting radar-variable data. IEEE J Sel Top Appl Earth Observations Remote Sens 12(1):135–150CrossRef
33.
Parkhomey I, Boiko J, Tsopa N, Zeniv I, Eromenko O (2020) Assessment of quality indicators of the automatic control system influence of accident interference. TELKOMNIKA Telecommun Comput El Control 18(4):2070–2079
34.
Bestak R (2020) Interference reduction using principles and application of cognitive radar in pulse jammer suppression. IRO J Sustain Wirel Syst 2(1):33–41CrossRef
Metadata
Title
Increasing Efficiency in the Correlation Processing of Information Signals for Radar
Authors
Juliy Boiko
Lesya Karpova
Copyright Year
2023
Publisher
Springer Nature Singapore
Book
Proceedings of Fourth International Conference on Communication, Computing and Electronics Systems

Print ISBN: 978-981-19-7752-7

Electronic ISBN: 978-981-19-7753-4

Copyright Year: 2023

DOI
https://doi.org/10.1007/978-981-19-7753-4_42