SEARCH

SEARCH BY CITATION

References

  • Appleby, R. (2004), Whole body 35 GHz security scanner, Proc. SPIE, 5410, 244251.
  • Chow, Y. L. (1972), On designing a supersynthesis antenna array, IEEE Trans. Antennas Propag., 20, 3035.
  • Cornwell, T. J. (1988), A novel principle for optimization of the instantaneous Fourier plane coverage of correlation arrays, IEEE Trans. Antennas Propag., 36(8), 11651167.
  • Edelsohn, C., J. Gurley, H. McCord, R. Donnelly, P. Virga, W. Butler, and A. Jain (1998), RADSAR (RADiometric SAR) experimental results, in International Geoscience and Remote Sensing Symposium, pp. 372374, IEEE Press, Piscataway, N. J.
  • Grafulla-González, B., K. Lebart, and A. R. Harvey (2006), Physical optics modelling of millimetre-wave personnel scanners, Pattern Recognition Lett., 27(15), 18521862.
  • Harvey, A. R., and R. Appleby (2003), Passive mm-wave imaging from UAVs using aperture synthesis, Aeronaut. J., 107(1068), 8797.
  • Haupt, R. L. (1995), An introduction to genetic algorithms for electromagnetics, IEEE Antennas Propag. Mag., 37(2), 715.
  • Hebib, S., N. Raveu, and H. Aubert (2006), Cantor spiral array for the design of thinned arrays, IEEE Antennas Wireless Propag. Lett., 5, 104106.
  • Keto, E. (1997), The shapes of cross-correlation interferometers, Astrophys. J., 475, 843852.
  • Kogan, L. (2000), Optimizing a large array configuration to minimize the sidelobes, IEEE Trans. Antenna Propag., 48(7), 10751078.
  • Kopilovich, L. E. (2005), Non-redundant hexagonal array configurations for optical interferometric systems compactly covering central domains in the spatial-frequency plane, J. Modern Opt., 52(10), 14151420.
  • Kozachenko, L. F., and N. N. Leonenko (1987), On statistical estimation of entropy of random vector, Problems Infor. Transmiss., 23(2), 95101, (translated from Problemy Peredachi Informatsii (in Russian), 23 (2), 9–16).
  • Marcano, D., and F. Duràn (2000), Synthesis of antenna arrays using Genetic Algorithms, IEEE Antennas Propag. Mag., 42(3), 1220.
  • Peichl, M., H. Suess, M. Suess, and S. Kern (1998), Microwave imaging of the brightness temperature distribution of extended areas in the near and far field using two-dimensional aperture synthesis with high spatial resolution, Radio Sci., 33(3), 781801.
  • Ruf, C. S. (1990), Antenna performance for a synthetic aperture microwave radiometer in geosynchronous earth orbit, Int. Geosci. Remote Sens. Symp., 2, 15891592.
  • Ruf, C. S. (1993), Numerical annealing of low-redundancy linear arrays, IEEE Trans. Antennas Propag., 41(1), 8590.
  • Ruf, C. S., C. T. Swift, A. B. Tanner, and D. M. L. Vine (1988), Interferometric synthetic aperture microwave radiometry for the remote sensing of the earth, IEEE Trans. Geosci. Remote Sens., 26(5), 597611.
  • Sheen, D. M., D. L. McMakin, and T. E. Hall (2001), Three-dimensional millimeter-wave imaging for concealed weapon detection, IEEE Trans. Microwave Theory Tech., 49(9.
  • Thompson, A. R., J. M. Moran, and G. W. Swenson (2001), Interferometry and Synthesis in Radio Astronomy, John Wiley, Hoboken, N. J.
  • Torres, F., A. Camps, J. Bará, and I. Corbella (1997), Impact of receiver errors on the radiometric resolution of large 2D aperture synthesis radiometers: Study applied to MIRAS, Radio Sci., 32(2), 629641.
  • Victor, J. D. (2002), Binless strategies for estimation of information from neural data, Phys. Rev., 66(051903), 115.