References
- Balanis , C. 1997 . Antenna Theory, Analysis, and Design , 2nd edition , New York : John Wiley & Sons .
- Stutzman , W. L. and Thiele , G. A. 1998 . Antenna Theory and Design , 2nd edition , New York : Wiley .
- Wong , K. L. 2002 . Compact and Broadband Microstrip Antennas , New York : John Wiely & Sons .
- Agrawall , N. P. , Kumar , G. and Ray , K. P. 1998 . Wide-band planar monopole antennas . IEEE Trans. Antennas Propagat. , 46 ( No. 2 ) : 294 – 295 .
- Lee , E. , Hall , P. S. and Gardner , P. 2000 . “ Novel compact wideband or multiband planar antenna ” . In Proc. IEEE Antennas Propagat. Soc. Int. Symp 624 – 627 . Salt Lake City
- Kerkhoff , A. J. and Rogers , R. L. 2004 . Design and analysis of planar monopole antennas using a genetic algorithm approach . IEEE Trans. Antennas Propagat. , 52 ( No. 10 ) : 2709 – 2718 .
- Chen , C. H. , Liu , C. L. , Chiu , C. C. and Hu , T. M. 2006 . Ultra-wide band channel calculation by SBR/image techniques for indoor communication . Journal of Electromagnetic Waves and Applications , 20 ( No. 1 ) : 41 – 51 .
- Eldek , A. A. 2006 . “ Numerical analysis of a small ultra wideband microstrip-fed tap monopole antenna ” . In Progress In Electromagnetics Research 59 – 69 . PIER 65
- Zhou , H. J. , Liu , Q. Z. , Li , J. F. and Guo , J. 2007 . A swallow-tailed wideband planar monopole antenna with semi-elliptical base . Journal of Electromagnetic Waves and Applications , 21 ( No. 9 ) : 1257 – 1264 .
- Ren , W. , Shi , Z. G. and Chen , K. S. 2007 . Novel planar monopole UWB antenna with 5-GHz band-notched characteristic . Journal of Electromagnetic Waves and Applications , 21 ( No. 12 ) : 1645 – 1652 .
- Rajabi , M. , Mohammadirad , M. and Komjani , N. 2008 . Simulation of ultra wideband microstrip antenna using EPML-TLM . Progress In Electromagnetics Research B , 2 : 115 – 124 .
- Zhang , X. , Xia , Y. Y. , Jiang , J. B. , Wu , W. and ang , X. M. W . 2008 . Dual-band monopole antenna with a novel conductor-backed palne . Journal of Electromagnetic Waves and Applications , 22 : 2063 – 2068 .
- Rajabi , M. , Mohammadi , M. and Komjani , N. 2008 . Simulation of ultra wideband microstrip antenna using EPML-TLM . Progress In Electromagnetics Research B , 2 : 115 – 124 .
- Hosseini , S. A. , Atlasbaf , Z. and Forooraghi , K. 2008 . Two new loaded compact palnar ultra-wideband antennas using defected ground structures . Progress In Electromagnetics Research B , 2 : 165 – 176 .
- Ghassemi , N. , Rashed-Mohassel , J. , Neshati , M. H. , Tavakoli , S. and Ghassemi , M. 2008 . A high gain dual stacked aperture coupled microstrip antenna for wideband applications . Progress In Electromagnetics Research B , 9 : 127 – 135 .
- Ghosh , D. , Sarkar , T. K. and Mokole , E. L. 2009 . Design of a wide-angle biconical antenna for wideband communications . Progress In Electromagnetics Research B , 16 : 229 – 245 .
- Chen , Y. , Yang , S. , He , S. and Nie , Z. P. 2009 . Design and analysis of wideband planar monopole antennas using the multilevel fast multipole algorithm . Progress In Electromagnetics Research B , 15 : 95 – 112 .
- Mehdipour , A. , Mohammadpour-Aghdam , K. and Faraji-Dana , R. 2007 . Complete dispersion analysis of vivaldi antenna for ultra wideband applications . Progress In Electromagnetics Research , PIER 77 : 85 – 96 .
- Ang , K. and Chung , B. K. 2007 . A wideband E-shaped microstrip patch antenna for 5–6GHz wireless communications . Progress In Electromagnetics Research , PIER 75 : 397 – 407 .
- Wang , F. J. and Zhang , J. S. 2007 . Wideband cavity-backed patch antenna for PCS/IMT2000/2.4GHz WLAN . Progress In Electromagnetics Research , PIER 74 : 39 – 46 .
- Wu , Y. J. , Sun , B. H. , Li , J. F. and Liu , Q. Z. 2007 . Triple-band omni-directional antenna for WLAN application . Progress In Electromagnetics Research , PIER 76 : 477 – 484 .
- Yang , S. S. , Lee , K. F. , Kishk , A. A. and Luk , K. M. 2008 . Design and study of wideband single feed circularly polarized microstrip antennas . Progress In Electromagnetics Research , PIER 80 : 45 – 61 .
- Lamultree , S. and Phongcharoenpanich , C. 2008 . Bidirectional ultra-wideband antenna using rectangular ring FED by stepped monopole . Progress In Electromagnetics Research , PIER 85 : 227 – 242 .
- Lotfi Neyestanak , A. A. 2008 . Ultra wideband rose leaf microstrip patch antenna . Progress In Electromagnetics Research , PIER 86 : 155 – 168 .
- Conceicao , R. , O’Halloran , M. , Glavin , M. and Jones , E. 2009 . Comparison of planar and circular antenna configurations for breast cancer detection using microwave imaging . Progress In Electromagnetics Research , PIER 99 : 1 – 19 .
- Geng , J. P. , Li , J. , Jin , R. H. , Ye , S. , Liang , X. and Li , M. 2009 . The development of curved microstrip antenna with defected ground structure . Progress In Electromagnetics Research , : 53 – 73 . PIER 98
- Abbaspour , M. and Hassani , H. R. 2008 . Wideband star-shaped microstrip patch antenna . Progress In Electromagnetics Research Letters , 1 : 61 – 68 .
- Li , Y. , Liu , Y. and Gong , S. X. 2008 . Microstrip antenna using ground-cut slots and miniaturization techniques with low RCS . Progress In Electromagnetics Research Letters , 1 : 211 – 220 .
- Liu , Y. T. and Su , C. W. 2008 . Wideband omnidirectional operation monopole antenna . Progress In Electromagnetics Research Letters , 1 : 255 – 261 .
- Ansari , J. A. and Ram , R. B. 2008 . Tunnel diode integrated E-shaped patch antenna for broadband operation . Progress In Electromagnetics Research Letters , 1 : 263 – 273 .
- HFSS . Ansoft Corporation . Ver. 10
- Rothwell , E. J. , Nyquist , D. P. and Chen , K. M. 1987 . Radar target discrimination using the extinction-pulse technique . IEEE Trans. Antennas Propagat. , 33 ( No. 9 ) : 929 – 937 .
- Taylor , J. D. 1995 . Introduction to Ultra Wideband Radar System , Boca Raton : CRC Press .
- Astanin , J. L. and Kostylev , A. A. 2000 . The Foundation of Ultra Wideband Radar Measurement , Edited by: Yang , F. C. and Wang , J. Q. Changsha : Defense University of Science and Technology Press .
- Rohde , U. L. and Newkirk , D. P. 2000 . RF/Microwave Circuit Design for Wireless Applications , New York : John Wiley & Sons .