A range-doppler spread target model is modified to obtain a clut ter model by including the effect of beam and range gate shape. This clutter modeling is then applied in a simulation of an FMCW radar sensor that uses an adaptive moving target indicator (AMTI) and a monopulse antenna to detect slow-moving ground targets. The ability of the AMTI to discriminate a slow-moving point target from ground clutter is shown via simulation.
Axelsson, S. 'Area Target Response of Triangularly Frequency-Modulated Continuous-Wave Radars." IEEE Trans. on Aero. and Elect. Syst AES-14:2 (March 1978), 266-277.
2.
Bahar, E. "Full Wave Solutions for the Depolarization of the Scattered Radiation Fields by Rough Surfaces of Arbitrary Slope." IEEE Trans. on Antennas and PropagationAP-29:3 (May 1981), 443-454.
3.
Barrick, D. "Rough Surface Scattering Based on the Specular Point Theory." IEEE Trans. on Antennas and PropagationAP-16:4 (July 1968), 449-454.
4.
Barrick, D.E. and Bahar, E. "Rough Surface Scattering Using Specular Point Theory." IEEE Trans. on Antennas and PropagationAP-29:5 (September 1981), 798-800.
5.
Crispin, J.W. , Jr., and Maffett , A.L. "Radar Cross Section Estimation for Complex Shapes." Proceedings of the IEEE53 (August 1965), 972-982.
6.
Fung, A. and Eom. H. "Multiple Scattering and Depolarization by a Randomly Rough Kirchhoff Surface." IEEE Trans. on Antennas and PropagationAP-29:3 (May 1981 ), 463-471.
7.
Gibson, C.; Haykin, S.; and Kesler, S. "Maximum Entropy (Adaptive) Filtering Applied to Radar Clutter." 1979 IEEE Int. Conf. on Acoust. Speech and Signal Processing (1979), 166-169.
8.
Griffiths, L. "Rapid Measurement of Digital Instantaneous Frequency." IEEE Trans. on Acoustics, Speech and Signal ProcessingASSP-23:2 (April 1975), 207-222.
9.
Hagedon, G.Cross Section and Glint Predictions from N Shape Models. TAGSEA CR-2-B-103-001 (January 1977).
10.
Jackson, F. ; Walton, W.; and Baker, P. 'Toward Global Measurements of Ocean Wave Spectra." OCEANS'82 ( 1982), 428-433.
11.
McAlpine, G.A. ; Dammann, J.F.; Highfill, J.H.; and Isaacs, J.C. "Post Mixer Spectra of Periodic FM Altimeters with Area Target Returns." IEEE Trans. on Aero. and Elect. Syst.AES-7:5 (September 1971), 932-941.
12.
Mitchell, R.Radar Signal Simulation. Artech, Dedham, Mass. (1976).
13.
Russell, R. and Sedenquist, F. "Simulation of Polarimetric Radars." 15th Southeastern Symposium on System Theory (March 1983), 302-305.
14.
Short, R. 'An Adaptive MTI for Weather Clutter Suppression." IEEE Trans. on Aero. and Elect. Syst.AES-18:5 (September 1982), 552-562.
15.
Sundaram, G. "US Tube Launched Smart Anti-Tank Munitions ." International Defense Review8 (1980), 1233-1236.
16.
Tozzi, L. "Resolution in Frequency-Modulated Radars." PhD dissertation. University of Maryland, College Park, Md. (1972).
17.
Van Trees, H.Detection, Estimation, and Modulation Theory Part III: Radar-Sonar Signal Processing and Gaussian Signals in NoiseJohn Wiley & Sons, Inc., New York, N.Y. (1971).
18.
Widrow, B. et al 'Adaptive Noise Cancelling: Principles and Applications." Proc. of the IEEE63:12 (December 1975) 1691-1716.
