Recognition of horizontal layers in a segmented radargram after the application of Canny edge detector

Milan Vrtunski; Željko Bugarinović; Lara Pajewski; Aleksandar Ristić; Miro Govedarica

doi:https://doi.org/10.5194/egusphere-egu2020-7909

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EGU2020-7909, updated on 12 Jun 2020

https://doi.org/10.5194/egusphere-egu2020-7909

EGU General Assembly 2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Recognition of horizontal layers in a segmented radargram after the application of Canny edge detector

Milan Vrtunski¹, Željko Bugarinović¹, Lara Pajewski², Aleksandar Ristić¹, and Miro Govedarica¹

Milan Vrtunski et al.

¹University of Novi Sad, Faculty of Technical Sciences, Novi Sad, Serbia (milanv@uns.ac.rs)
²Department of Information Engineering, Electronics and Telecommunications, Sapienza University of Rome, Rome, Italy

This paper presents a method for the automated detection and elimination of horizontal reflections from ground penetrating radar (GPR) profiles after Canny edge filtering. Horizontal reflections are generated by interfaces between different media parallel to the air-soil interface. The recognition of horizontal layers is a crucial task when the number of layers and their thicknesses need to be estimated (e.g., in GPR road surveys). Identifying and deleting horizontal reflections from a radargram is also useful to facilitate the subsequent automated extraction of hyperbolic reflections [1-3]. It has to be noted that the removal of horizontal layers can increase the level of radargram segmentation.

In the proposed method, the first segmentation step is the application of Canny edge detector to the entire radargram. Then, horizontal layer recognition is done by carefully choosing boundary values. These values are varied many times until optimal values, depending on data acquisition parameters, are adopted. Special attention is paid to time efficiency of both segmentation steps, to investigate the possibility of employing the proposed solution in near real-time applications. The final result is an image where edge pixels arranged horizontally are removed.

Testing of this algorithm is done in MATLAB software environment, on a set of data with different levels of complexity, by varying the acquisition parameters.

References

[1] A. Ristić, Ž. Bugarinović, M. Govedarica, L. Pajewski, and X. Derobert, “Verification of algorithm for point extraction from hyperbolic reflections in GPR data,” Proc. 9th International Workshop on Advanced Ground Penetrating Radar (IWAGPR 2017), Edinburgh, UK, pp. 1-5, 2017.

[2] A. Ristić, M. Vrtunski, M. Govedarica, L. Pajewski, and X. Derobert, “Automated data extraction from synthetic and real radargrams of district heating pipelines,” Proc. 9th International Workshop on Advanced Ground Penetrating Radar (IWAGPR 2017), Edinburgh, UK, pp. 1-5, 2017.

[3] Ž. Bugarinović, S. Meschino, M. Vrtunski, L. Pajewski, A. Ristić, X. Derobert, and M. Govedarica, “Automated Data Extraction from Synthetic and Real Radargrams of Complex Structures,” Journal of Environmental and Engineering Geophysics, Vol. 23(4), pp. 407-421, 2018.

How to cite: Vrtunski, M., Bugarinović, Ž., Pajewski, L., Ristić, A., and Govedarica, M.: Recognition of horizontal layers in a segmented radargram after the application of Canny edge detector, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-7909, https://doi.org/10.5194/egusphere-egu2020-7909, 2020

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