Title:
Simulation of a Ground Penetrating Radar Environment by Means of FDTD Methods Using an Automatic Control Approach
Author(s):
A. Teggatz, A. Joestingmeier, T. Meyer, and A. S. Omar
Source:
Antennas and Propagation Society International Symposium, 2004. IEEE
Vol./Issue/Date:
Volume 2, 20-25 June
Year:
2004
Page(s):
2095 - 2098
Keywords:
Abstract:
A novel approach for the design and the simulation of a Ground Penetrating Radar (GPR)
environment by means of finite difference time domain (FDTD) methods is presented.
Simulating GPR data is essential for the development and comparison of algorithms using
exactly defined data. The development of the model and the selection of optimum parameters
for the electromagnetic FDTD field simulator are addressed. It is furthermore discussed how to
solve the problem of necessary changes to the model by means of an ActiveX server control,
which allows to control the whole functionality of the FDTD solver from an external Win32
application providing a possibility for the automation of the GPR simulation. Several
simulation results are presented. The success of the approach is presented through the excellent
quality of the results achieved.
Document:
Reference Id:
103
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