Philipp Koyan, M.Sc.

Contact

University of  Potsdam,
Institute of Geosciences

Philipp Koyan, M.Sc.
Building 29, Room 1.50

E-mail:
koyan@uni-potsdam.de
Phone:
+49 331 977 6357
Fax:
+49 331 977 5700
 Philipp Koyan , M.Sc.

 

  • Biography
  • Research
  • Publications

Biography

2018-present
Doctoral Student, Applied Geophysics (University Potsdam)
2015-2018
M.Sc., Geosciences (University Potsdam)
2012-2015
B.Sc., Geosciences (University Potsdam)

Research

In my doctoral thesis, I focus on the analysis of both synthetic and field 2D/3D ground-penetrating radar (GPR) data aquired across sedimentary systems. Typically, such data are interpreted in a manual and thus time-consuming and barely reproducible manner. Hence, the scope of this project is to analyze and classify data attributes in order to interpret the data by generating 2D/3D GPR facies models of sedimentary systems.

Publications

Conference Proceedings

Koyan, P., Tronicke, J., Allroggen, N., Kathage, A., Willmes, M., 2018. Estimating moisture changes in concrete using GPR velocity analysis: potential and limitations. In:  17th International Conference On Ground Penetrating Radar (GPR), Rapperswil (CH). doi: 10.1109/ICGPR.2018.8441572.

Data sets

Koyan, P., Tronicke, J., 2019. A synthetic 3D ground-penetrating radar (GPR) data set across a realistic sedimentary model. Mendeley Data. doi: http://dx.doi.org/10.17632/by3yh79hx4.1.

Biography

2018-present
Doctoral Student, Applied Geophysics (University Potsdam)
2015-2018
M.Sc., Geosciences (University Potsdam)
2012-2015
B.Sc., Geosciences (University Potsdam)

Research

In my doctoral thesis, I focus on the analysis of both synthetic and field 2D/3D ground-penetrating radar (GPR) data aquired across sedimentary systems. Typically, such data are interpreted in a manual and thus time-consuming and barely reproducible manner. Hence, the scope of this project is to analyze and classify data attributes in order to interpret the data by generating 2D/3D GPR facies models of sedimentary systems.

Publications

Conference Proceedings

Koyan, P., Tronicke, J., Allroggen, N., Kathage, A., Willmes, M., 2018. Estimating moisture changes in concrete using GPR velocity analysis: potential and limitations. In:  17th International Conference On Ground Penetrating Radar (GPR), Rapperswil (CH). doi: 10.1109/ICGPR.2018.8441572.

Data sets

Koyan, P., Tronicke, J., 2019. A synthetic 3D ground-penetrating radar (GPR) data set across a realistic sedimentary model. Mendeley Data. doi: http://dx.doi.org/10.17632/by3yh79hx4.1.