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Articles

Analysis of the higher order Bragg scatter in HF radar

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Pages 507-517 | Received 08 Oct 2012, Accepted 12 Nov 2012, Published online: 02 Jan 2013

References

  • Barrick DE. The interaction of HF/VHF radio waves with the sea surface and its implications. In: Electromagnetics of the Sea, AGARD Conference Proceedings. Vol. 77; 1970; Springfield. p. 18.1–18.25..
  • Barrick, DE, 1971. ‘Theory of HF and VHF propagation across the rough sea, 1, the effective surface impedance for a slightly rough highly conducting medium at grazing incidence, Radio Sci. 6 (1971), pp. 517–526.
  • Lipa, BJ, and Barrick, DE, 1980. Methods for the extraction of long-period ocean wave parameters from narrow-beam HF radar sea echo, Radio Sci. 15 (1980), pp. 843–853.
  • Lipa, BJ, and Barrick, DE, 1986. Extraction of sea state from HF radar sea echo: mathematical theory and modeling, Radio Sci. 21 (1986), pp. 81–100.
  • Wyatt, LR, Green, JJ, Middleditch, A, Moorhead, MD, Howarth, J, Holt, M, and Keogh, S, 2006. Operational wave, current and wind measurements with the Pisces HF radar, IEEE J. Oceanic Eng. 31 (2006), pp. 819–834.
  • Howell, R, and Walsh, J, 1993. Measurement of ocean wave spectra using narrow beam HF radar, IEEE J. Oceanic Eng. 18 (1993), pp. 296–305.
  • Crombie, DD, 1955. Doppler spectrum of sea echo at 13.56 Mc/s, Nature 175 (1955), pp. 681–682.
  • Nie, D, Zhang, M, Geng, X, and Zhou, P, 2012. Investigation on Doppler spectral characteristics of electromagnetic backscattered echoes from dynamic nonlinear surfaces of finite-depth sea, Prog. Electromagnet. Res. 130 (2012), pp. 169–186.
  • Barrick, DE, 1972. First-order theory and analysis of MF/HF/VHF scatter from the sea, IEEE Trans. Antennas Propag. 20 (1972), pp. 2–10.
  • Barrick, DE. Remote sensing of sea state by radar Ocean 72. In: Derr VE editor. IEEE International Conference on Engineering in the Ocean Environment, NOAA/Environmental Research Laboratories, Boulder, Colo; 1972, p. 12-1–12-46..
  • Weber, BL, and Barrick, DE, 1977. On the nonlinear theory for gravity waves on the ocean’s surface, 1, derivations, J. Phys. Oceanogr. 7 (1977), pp. 3–10.
  • Zhang, M, Luo, W, Luo, G, Wang, C, and Yin, H-C, 2012. Composite scattering of ship on sea surface with breaking waves, Prog. Electromagnet. Res. 123 (2012), pp. 263–277.
  • Kingsley SP, Matoses A, Wyatt LR. Analysis of second-order HF radar sea spectra recorded in storm conditions. In: Oceans ‘98 Conference Proceedings. 1998; Nice, France. p. 459–462..
  • Wu, Z-S, Zhang, J-P, Guo, L-X, and Zhou, P, 2009. An improved two-scale model with volume scattering for the dynamic ocean surface, Prog. Electromagnet. Res. 89 (2009), pp. 39–56.
  • Shearman EDR. Propagation and scattering in MF/HF groundwave radar. In: IEE Proceedings F Communications, Radar and Signal Processing; 1983. Vol. 130, p. 579–590..
  • Alvarez-Lopez, Y, Garcia-Gonzalez, C, Vazquez-Antuna, C, Ver-Hoeye, S, and Las-Heras, F, 2012. Frequency scanning based radar system, Prog. Electromagnet. Res. 132 (2012), pp. 275–296.
  • Tyler GL, Faulkerson WE, Peterson AM, Teague CC. Second-order scattering from the sea: ten meter radar observations of the Doppler continuum. Sci., New Series. 1972; 177: 349–351..
  • Guo, L-X, Liang, Y, Li, J, and Wu, Z-S, 2011. A high order integral SPM for the conducting rough surface scattering with the tapered wave incidence-TE case, Prog. Electromagnet. Res. 114 (2011), pp. 333–352.
  • Qi, C, Zhao, Z, Yang, W, Nie, Z-P, and Chen, G, 2011. Electromagnetic scattering and Doppler analysis of three-dimensional breaking wave crests at low-grazing angles, Prog. Electromagnet. Res. 119 (2011), pp. 239–252.
  • Barrick, DE, and Snider, JA, 1977. The statistics of HF sea-echo Doppler spectra, IEEE Trans. Antennas Propag. 25 (1977), pp. 19–28.
  • Barrick, DE, Headrick, JM, Bogle, RW, and Crombie, DD, 1974. Sea backscatter at HF: interpretation and utilization of the echo, Proc. IEEE 62 (1974), pp. 673–680.
  • Ivonin, DV, Shrira, VI, and Broche, P, 2006. On the singular nature of the second-order peaks in HF radar sea echo, IEEE J. Oceanic Eng. 31 (2006), pp. 751–766.
  • Rice SO. Reflection of electromagnetic waves from slightly rough surfaces. Comm. Pure Appl. Math. 1951;4:351–378..
  • Tai, CT, 1972. Kirchhoff theory: scalar, vector, or dyadic, IEEE Trans. Antennas Propag. 1 (1972), pp. 114–115.
  • Johnstone DL. Second-order electromagnetic and hydromagnetic effects in high-frequency radio-wave scattering from the sea. Technical report no. 3615–3 (SEL-75-004), Contracts N00014-75-C-0356 and N00014-69-A-0200-6012 [Ph.D. Dissertation]. Stanford (CA): Stanford Electronics Laboratories; 1975..
  • Longuet-Higgins MS, Cartwright DE, Smith ND. Observation of the directional spectrum of sea waves using the motion of a floating buoy. In: Proceedings of the Conference Ocean Wave Special; 1963. Englewood Cliffs (NJ): Prenticen-Hall Inc. p. 111–136..
  • Moskowitz, L, 1964. Estimates of the power spectrums of fully developed seas for wind speeds of 20 to 40 knots, J. Geophys. Res. 69 (1964), pp. 5161–5179.
  • Barrick, DE, 1977. Extraction of wave parameters from measured HF radar sea-echo Doppler spectra, Radio Sci. 12 (1977), pp. 415–424.

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