Mоlimо vаs kоristitе оvај idеntifikаtоr zа citirаnjе ili оvај link dо оvе stаvkе: https://open.uns.ac.rs/handle/123456789/14525
Nаziv: A new method to simultaneously estimate the radius of a cylindrical object and the wave propagation velocity from GPR data
Аutоri: Ristić, Aleksandar 
Petrovacki D.
Govedarica, Miro 
Dаtum izdаvаnjа: 1-авг-2009
Čаsоpis: Computers and Geosciences
Sažetak: We present a new method to simultaneously estimate cylindrical object radius (R) and electromagnetic (EM) wave propagation velocity (v) from ground penetrating radar (GPR) data. R estimation methods have been investigated since the middle of the previous decade, but studies have become more intensive and important over the last several years since they increase the utility of GPR data and enable new GPR applications. Since existing methods, according to the author's best knowledge, are based on a priori known v, the proposed method has an advantage: it eliminates the measurement of v and its influence on R estimation quality. Estimating v accurately results in better soil characterisation. Three steps are used to simultaneously estimate v and R. First, using the extracted raw data, the coordinates of the hyperbola apex (x0, t0) are estimated. Second, the boundary speed (v0) is estimated, based on the previous results. In the final step, v is reduced from v0 to a predefined vmin. From the analysis of propagation velocity choice criterion, an optimal v is chosen, which is used to calculate a unique R. This proposed method is a nonlinear least squares fitting procedure. The method is implemented and verified, using data collected under real conditions, in a Matlab environment. A comparison of the proposed and existing methods shows that the new method is significantly more accurate and robust with regard to noise and the amount of raw data. © 2009 Elsevier Ltd. All rights reserved.
URI: https://open.uns.ac.rs/handle/123456789/14525
ISSN: 983004
DOI: 10.1016/j.cageo.2009.01.003
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