Through-Wall Imaging With UWB Radar System - KEMT FEI TUKE
Through-Wall Imaging With UWB Radar System - KEMT FEI TUKE
Through-Wall Imaging With UWB Radar System - KEMT FEI TUKE
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BIBLIOGRAPHY 102<br />
[65] M. N. Guddati and A. H. Heidari, “Migration with arbitrarily wide-angle wave equations,”<br />
Geophysic, vol. 70, pp. 61–70, May 2005.<br />
[66] A. Gunawardena and D. Longstaff, “Wave equation formulation of Synthetic Aperture<br />
<strong>Radar</strong> (SAR) algorithms in the time-space domain,” IEEE Transactions on Geoscience<br />
and Remote Sensing, vol. 36, pp. 1995–1999, Nov. 1999.<br />
[67] K. Haddadi, M. M. Wang, O. Benzaim, D. Glay, and T. Lasri, “Contactless Microwave<br />
Technique Based on a Spread-Loss Model for Dielectric Materials Characterization,” IEEE<br />
Microwave and Wireless Components Letters, vol. 19, pp. 33–35, Jan. 2009.<br />
[68] S. Hantscher, B. Praher, A. Reisenzahn, and C. G. Diskus, “Analysis of <strong>Imaging</strong> <strong>Radar</strong> Algorithms<br />
for the Identifcation of Targets by Their Surface Shape,” Antennen und Messverfahren<br />
fr Ultra-Wide-Band (<strong>UWB</strong>)-<strong>System</strong>e, Dec. 2006.<br />
[69] S. Hantscher, A. Reisenzahn, and C. G. Diskus, “<strong>Through</strong>-<strong>Wall</strong> <strong>Imaging</strong> <strong>With</strong> a 3-D <strong>UWB</strong><br />
SAR Algorithm,” IEEE Signal Processing Letters, vol. 15, pp. 269–272, 2008.<br />
[70] M. A. Haun, D. L. Jones, and W. D. O’Brien, “Efficient three-dimensional imaging from a<br />
small cylindrical aperture,” Ultrasonics Symposium, IEEE Transactions, vol. 2, pp. 1589–<br />
1592, Oct. 2000.<br />
[71] G. T. Herman, Image reconstruction from projections. Berlin, Germany: Spriner-Verlag,<br />
Oct. 1980.<br />
[72] A. Ho, W. H. Tham, and K. S. Low, “Improving classification accuracy in through-wall<br />
radar imaging using hybrid prony’s and singular value decomposition method,” Geoscience<br />
and Remote Sensing Symposium, IGARSS, Proceedings IEEE, vol. 6, pp. 4267–4270, July<br />
2005.<br />
[73] A. J. Hunter, M. P. Hayes, and P. T. Gough, “A Comparison Of Fast Factorised Back-<br />
Projection And Wavenumber Algorithms for SAS image reconstruction,” WCU 2003,<br />
Paris, pp. 527–530, Sep. 20003.<br />
[74] I. Immoreev and Fedotov, “Ultra wideband radar systems: advantages and disadvantages,”<br />
Ultra Wideband <strong>System</strong>s and Technologies, pp. 201–205, 2002.<br />
[75] J. D. Jackson, Classical electrodynamics. New York: J. Wiley and Sons, Aug. 1998.<br />
[76] E. M. Johansson and J. E. Mast, “Three-dimensional ground-penetrating radar imaging<br />
using synthetic aperture time-domain focusing,” AMMWD, Proceedings of SPIE, vol. 2275,<br />
pp. 205–214, Sep. 1994.<br />
[77] S. Kaczmarz, “Angenaehrte Aufloesung von <strong>System</strong>en Linearer Gleichungen,” Bulletin of<br />
the Polish Academy of Sciences Letters, pp. 355–357, 1937.<br />
[78] A. C. Kak and M. Slaney, Principles of computerized tomographic imaging. Society for<br />
Industrial Mathematics, July 2001.<br />
[79] L. V. Kempen, “Ground penetrating radar for anti-personnel landmine detection,” Ph.D.<br />
dissertation, Vrije Universiteit Brussel, Faculty of Engineering Sciences, Dept. of Electronics<br />
and Informatics (ETRO), Sept. 2006.<br />
[80] H. Khatri and C. Le, “Identification of Electromagnetic Parameters of a <strong>Wall</strong> and Determination<br />
of <strong>Radar</strong> Signal Level Behind a <strong>Wall</strong>,” Proceedings of SPIE, the International<br />
Society for Optical Engineering, vol. 6210, pp. 1–7, Apr. 2006.