Bibliography 
[1] G. R. Olhoeft, "Application and Frustrations in Using Ground Penetrating Radar", 
Colorado School of Mines, IEEE AESS System Magazine, pp. 12-19, February 2002. 
[2] R. Benjamin, J. Craddock, G. S. Hillton, S. Litobarski, E. McCutcheon and R. 
Nilavalan, "Microwave Detection of Buried Mines using Non-Contact Synthetic Near-
Field Focusing", Center for Communication Research, University of Bristol, UK, pp. 
1-16, August 2002. 
[3] E. Charniak and D. Mcdermott, "Introduction to Artificial Inteligence", Adison Wesley 
Longman, USA, 2002. 
[4] H. Frigui and Keller, "Recognition Technology for the Detection of Buried Mines", 
IEEE Transactions on Fuzzy Systems, pp. 13-19, Feb 2001. 
[5] A. M. Zoubir, I. J. Chant, C. L. Brown, B. Barket, C. Abeynayaka, "Signal Processing 
Techiques for Landmine Detection Using Impulse Grond Penetrating Radar", IEEE 
Sensors Journal, Vol.2, No 1, pp. 41-49, Feb 2002. 
[6] F.R. Conner, "Signals", Edward Arnorld Ltd, UK, pp. 33-36, 1982. 
[7] C. Bruschini, B. Gros, F. Gueme and O. Carmona, "Ground Penetrating Radar and In­
duction Coil Sensor Imaging for Antipersonnel Mines Detection", LAMI-DeTec, Swiss 
Federal Insti tute of Technology, Switzerland, pp. 1-16, October 2002. 
[8] J. D. Crause, "Electromagnetics", Third edition, McGraw-Hill , 1984. 
[9] D. J. Daniels, "Surface Penetrating Radar", IEE, UK, 1996. 
[10] L. Fausett, "Fundamentals of Neural Networks", Prentice Hall, USA, 1994. 
[11] R. Pra tap , "Getting Started with MATLAB", Version-6, Oxford University Press, 2002. 
[12] D. M. Sakapura and J. A. Freeman, "Neural Networks", Peason Education Asia, pp. 
89-125, USA, 1994. 
44 
4 5 
[ 1 3 ] J . G . P r o a k i s , M . S e l e h i , "Contemporary Communication System using Matlab", 
B r o o k s C o l e , U S A , 2 0 0 2 . 
[ 1 4 ] V . C u t t i n , T . J . C h a i t o u t a n d R . B l a n p a i n , "Detection and Localization with a Step 
Frequency Radar", D e t e c t i o n o f A b o n d e d L a n d M i n e s , C o n f e r e n c e P u b l i c a t i o n N o . 4 5 8 , 
P P . 8 6 - 9 0 , O c t o b e r 1 9 9 8 . 
[ 1 5 ] T . M . M i t c h e l l , "Machine Learning", M c . G r a w - H i l l , p p . 8 1 - 1 2 4 , 1 9 9 7 . 
[ 1 6 ] H . D e m u t h a n d M . B e a l e , "Neural Network Toolbox", V e r s i o n - 4 , T h e M a t h w o r k I n c , 
p p . 5 1 - 5 7 , M a r c h 2 0 0 1 . 
[ 1 7 ] G . R . O l h o e f t , "The Ground Penetrating Radar Regulatory Envronment", D e p a r t m e n t 
o f G e o p h y s i c s , C o l a r d o S c h o o l o f M i n e s . 
[ 1 8 ] G . S . S m i t h a n d W . R . S c o t t "A Scale Model for Studing Ground Penetrating Radars", 
I E E E T r a n s a c t i o n s o n G e o s c i e n c e a n d R e m o t e S e n s i n g , V o l . 2 7 , N o . 4 , p p . 3 5 8 - 3 6 2 , J u l y 
1 9 8 9 . 
[ 1 9 ] S . L . E a r p , E . S . H u g e s a n d T . J . E l k i n s , "Ultra-Wideband Ground Penetrating Radar 
for the Detection of Metalic Mines", I E E E A E S S y s t e m M a g a z i n e , p p . 3 0 - 3 4 , S e p t e m ­
b e r 1 9 9 6 . 
[ 2 0 ] J . Y o u n g , M . P o i r i e r a n d L . P e t e r s , "A Review of Current Ground Penetrating Radar 
Concepts", I E E E , 1 9 9 2 . 
[ 2 1 ] C . B r u s h i n i , B . G r o s s , F . G u e r n e , P . P i e c e a n d O . C a r m o n a "Grond Penetrating Radar 
and Induction Coil Sensor Imaging for Antipersonnel Mines Detection", A p p l i e d G e o ­
p h y s i c s , S p e c i a l I s s u e : G P R ' 9 6 , p p . 5 9 - 7 1 , S e p 2 0 0 2 . 
[ 2 2 ] J . M . B o u r g e o i s a n d G . S . S m i t h , "A Full Electromagnetic Simulation of a Ground 
Penetrating Radar", S c h o o l o f E l e c t r i c a l E n g i n e e r i n g , G e o r g i a I n s t i t u t e o f T e c h n o l o g y , 
A t l a n t a , I E E E , p p . 1 4 4 2 - 1 4 4 5 , 1 9 9 4 . 
[ 2 3 ] J . C . R a l s t o n , D . W . H a i n s w o r t h a n d R . J . M c P h e e , "Application of Ground Penetrat­
ing Radar for Coal Thickness Measurement", I E E E t r a n s a c t i o n o n S p e e c h a n d I m a g e 
T e c h n o l o g i e s f o r C o m p u t i n g a n d T e l e c o m m u n i c a t i o n s , p p . 8 3 5 - 8 3 8 , 1 9 9 7 . 
[ 2 4 ] C . T . A l l e n , K . S h i a n d R . G . P l u m b , "The Ground Penetrating-Radar with a Co­
operative Target", I E E E t r a n s a c t i o n o n G e o s c i e n c e a n d R e m o t e S e n s i n g , V o l - 3 6 , p p . 
1 8 2 1 - 1 8 2 5 , S e p t e m b e r 9 8 . 
46 
[25] A. M. Zoubir, I. J. Chant, C. L. Brown, B. Barkat and C. Abeynayake, "Signal Process­
ing Techniques for Landmine Detection Using Ground Penetrating Radar", IEE Sensors 
Journal, Vol.2, No.l , 2002. 
[26] R. Nilavalan, "FTDT Modelling, Measurements and Analysis of Post Reception Syn­
thetic Focusing Techniques Ground Penetrating Radar", Ph .D Thesis, Universiy of 
Bristol, UK, 2001. 
[27] C. R. Liu, J. Li, X. Gan, H. Xing and X. Chen, "New Model for Estimating the 
Thickness and Permitivity of Subsurface Layers from GPR Data", IEE Proceeding on 
Radar Sonar Navi. Vol 149, No 6, pp. 315-319, December 2002. 
[28] M. Xiaoyan, F. Xueli, Z. Ronghua, X. Jiabin, "An Approach of Radar Clutter Recogni­
tion Based on Higher-Order Statistics Combination", IEEE Proceeding of ICSP, 2000.