Ground Penetrating Radar: Antenna for Buried Object Detection

被引:0
|
作者
Karim, M. N. A. [1 ]
Malek, M. F. A. [1 ]
Jamlos, M. F. [2 ]
Saudin, N. [1 ]
机构
[1] Univ Malaysia Perlis, Sch Elect Engn Syst, Kampus Pauh Putra, Arau Perlis 02600, Malaysia
[2] Univ Malaysia Perlis, Sch Comp & Commun Engn, Arau Perlis 02600, Malaysia
来源
2013 IEEE SYMPOSIUM ON WIRELESS TECHNOLOGY & APPLICATIONS (ISWTA2013) | 2013年
关键词
Antenna; Ground penetrating radar; wideband antenna;
D O I
暂无
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
In this paper, the design of wideband antenna with half and defected ground plane for buried object detection is presented. The antenna offers wide bandwidth from 0.5 GHz up to 3 GHz which is suitable for ground penetrating radar (GPR) system to detect buried objects under the ground surfaces. The simple structure and easy to integrate with planar substrate are the advantages of the antenna. A rectangular reflector is placed at the back of the antenna to obtain unidirectional radiation pattern which make it suitable for use in GPR system. The results such as return loss, gain and radiation pattern of the antenna are discussed in this paper.
引用
收藏
页码:198 / 201
页数:4
相关论文
共 50 条
  • [1] Design of Ground Penetrating Radar Antenna for Buried Object Detection
    Karim, M. N. A.
    Malek, M. F. A.
    Jamlos, M. F.
    Seng, L. Y.
    Saudin, N.
    [J]. 2013 IEEE INTERNATIONAL RF AND MICROWAVE CONFERENCE (RFM), 2013, : 253 - +
  • [2] Buried Nonmetallic Object Detection using Bistatic Ground Penetrating Radar with Variable Antenna Elevation Angle and Height
    Zhang, Yu
    Orfeo, Dan
    Burns, Dylan
    Miller, Jonathan
    Huston, Dryver
    Xia, Tian
    [J]. NONDESTRUCTIVE CHARACTERIZATION AND MONITORING OF ADVANCED MATERIALS, AEROSPACE, AND CIVIL INFRASTRUCTURE 2017, 2017, 10169
  • [3] A Least Squares Approach to Buried Object Detection Using Ground Penetrating Radar
    Yoldemir, Ahmet Burak
    Sezgin, Mehmet
    [J]. IEEE SENSORS JOURNAL, 2011, 11 (06) : 1337 - 1341
  • [4] A Least Mean Square Approach to Buried Object Detection in Ground Penetrating Radar
    Temlioglu, Eyyup
    Erer, Isin
    Kumlu, Deniz
    [J]. 2017 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM (IGARSS), 2017, : 4833 - 4836
  • [5] Modeling Buried Object Brightness and Visibility for Ground Penetrating Radar
    Stevenson, Garrett A.
    Wilson, Jason
    Worthmann, Brian M.
    Xavier, Wlamir
    [J]. IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING, 2022, 60
  • [6] Ground Penetrating Radar for Buried Landmine and IED Detection
    Daniels, David J.
    [J]. UNEXPLODED ORDNANCE DETECTION AND MITIGATION, 2009, : 89 - 111
  • [7] Forward Looking Ground Penetrating Radar with Synthetic Antenna Aperture for Buried Explosive Hazards Detection
    Sugak, V. G.
    Bukin, A. V.
    Reznichenko, N. G.
    Djadooei, Ali
    [J]. 2016 9TH INTERNATIONAL KHARKIV SYMPOSIUM ON PHYSICS AND ENGINEERING OF MICROWAVES, MILLIMETER AND SUBMILLIMETER WAVES (MSMW), 2016,
  • [8] Ground Penetrating Radar Antenna Alignment for Potato Detection
    Cheng, Qiao
    van Verre, Wouter
    Podd, Frank J. W.
    Daniels, David J.
    Peyton, Anthony J.
    [J]. 2022 23RD INTERNATIONAL RADAR SYMPOSIUM (IRS), 2022, : 54 - 56
  • [9] Impact of ground clutter on buried object detection by Ground Pentertaing Radar
    Yarovoy, A
    Kovalenko, V
    Fogar, A
    [J]. IGARSS 2003: IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM, VOLS I - VII, PROCEEDINGS: LEARNING FROM EARTH'S SHAPES AND SIZES, 2003, : 755 - 757
  • [10] Buried Object Characterization Using Ultra-Wideband Ground Penetrating Radar
    Li, Lin
    Tan, Adrian Eng-Choon
    Jhamb, Kashish
    Rambabu, Karumudi
    [J]. IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 2012, 60 (08) : 2654 - 2664
12345