DERIVATION OF FIRST-ORDER SEA CLUTTER MODEL AND ITS EVALUATION IN LONG-RANGE SURFACE WAVE RADARS

182 views

Authors

Keywords:

HFSWR; FMCW; Digital data; Simulation; First-order sea clutter

Abstract

The paper studied the derivation of the first-order sea clutter model and the typical signal processing in high-frequency surface wave radars. All calculation models are checked and simulated using Matlab to verify their reliability. Based on the derived signal models and their processing, we investigate the first-order sea clutter model in one period for high-frequency surface wave radars, evaluating the energy relationship between two spectrum lines and their expanding spectrum.

References

[1]. H.H.Dũng, L.D.Hiệu, B.N.Mỹ, N.X.Thái, P.K.Cương (2018), “Giải pháp xây dựng hệ thống ra đa cảnh giới biển vượt đường chân trời tại Việt Nam”, Tạp chí Nghiên cứu KH&CN quân sự, tr. 1-5.

[2]. N. Stojkovic, D. Nikolic, P. Petrovic, N. Tosic, I. Gluvacevic,. N. Stojiljkovic, (2019), “An Implementation of DBF and CFAR Models in OTHR Signal Processing”, IEEE 15th International Colloquium on Signal Processing & its Applications, Penang, Malaysia.

[3]. Richards M. A., (2015) “Fundamentals of Radar system processing” second Edition, Mc Graw Hill Education, tr. 354-360.

[4]. Chan H. C.,(1998), “Detection and tracking of low-altitude aircraft using hf surface-wave radar”, Defence Research Establishment Ottawa, tr.30-35.

[5]. Ponsford A. M., Wang J., (2010), “A review of high frequency surface wave radar for detection and tracking of ships”, Turkish Journal of Electrical Engineering and Computer Sciences.

[6]. Gupta A., (2015), “Theory and Measurement Validation of Novel HFSWR Receiver Architecture: Antenna Design,Clutter Suppression and Detection”, Department of Electracal Engineering of Helmut Schmidt University, Germany, tr. 80-100.

[7]. Wang Y., Mao X., Zhang J., (2018) “Detection of Vessel Targets in Sea Clutter Using In Situ Sea State Measurements With HFSWR”,IEEE Geoscience and Remote Sensing Letters.

[8]. Nikolic D., Stojkovic N.,(2019) “The high frequency surface wave radar solution for vessel tracking beyond the horizon”, Electronics and Energetics Vol. 33, No 1, tr. 37-59.

[9]. GRWAVE USER MANUAL. Software concerning Tropospheric Propagation: Groundwave propagation (GRWAVE). International Telecommunication Union, Radiocommunication Sector (ITU-R), Study Group 3 (SG 3) - Radiowave propagation.

[10]. Weigner M. M., “Monopole Antennas,” New York – Basel: Marcel Dekker Inc., 2003. ISBN 0824748441.

[11]. Balanis C.A. (2016), “Antenna Theory Analysis and Design,” 4nd Edition, John Wiley & Sons, Inc., New York, tr. 285-310.

[12]. Frisch A. S., Weber B. L., “A new technique for measuring tidal currents by using a two-site HF Doppler radar system,” J. Geophys. Res., vol. 85, pp. 485-493, 1980.

[13]. Prandle D., Ryder D. K., “Measurement of surface currents in Liverpool Bay by high-frequency radar,” Nature, vol. 315, pp. 128- 131, 1985.

[14]. Heron M. L., “Directional spreading of short-wavelength fetch-limited wind waves,” submitted to J. Phys. Oceanogr., 1985.

Published

15-06-2021

How to Cite

Hà Huy Dũng. “DERIVATION OF FIRST-ORDER SEA CLUTTER MODEL AND ITS EVALUATION IN LONG-RANGE SURFACE WAVE RADARS”. Journal of Military Science and Technology, no. 73, June 2021, pp. 55-64, https://en.jmst.info/index.php/jmst/article/view/47.

Issue

Section

Research Articles