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Bagińska I., Kawa M., Janecki W.: Estimation of spatial variability of lignite mine dumping ground soil properties using CPTu results, Studia Geotechnica et Mechanica 38(1), pp. 3–13, 2016BagińskaI.KawaM.JaneckiW.Estimation of spatial variability of lignite mine dumping ground soil properties using CPTu resultsStudia Geotechnica et Mechanica381313201610.1515/sgem-2016-0001Search in Google Scholar
Boulanger R.W., DeJong J.T.: Inverse filtering procedure to correct cone penetration data for thin-layer and transition effects, Cone penetration testing 2018: procedding of the 4th International Symposium on Cone Penetration Testing, pp. 25–44, 2018BoulangerR.W.DeJongJ.T.Inverse filtering procedure to correct cone penetration data for thin-layer and transition effectsCone penetration testing 2018: procedding of the 4th International Symposium on Cone Penetration Testing25442018Search in Google Scholar
Cristobal G., Schelkens P., Thienpont H.: Optical and Digital Image Processing: Fundamentals and Applications, Wiley-VCH Verlag GmbH&Co. KGaA, 2011CristobalG.SchelkensP.ThienpontH.Optical and Digital Image Processing: Fundamentals and ApplicationsWiley-VCH Verlag GmbH&Co. KGaA201110.1002/9783527635245Search in Google Scholar
Facciorusso J., Uzzielli M., Stratigraphic profiling by cluster analysis and fuzzy soil classification, Proceedings of the 2nd International Conference on Geotechnical Site Characterization ISC-2, Porto, 2004FacciorussoJ.UzzielliM.Stratigraphic profiling by cluster analysis and fuzzy soil classificationProceedings of the 2nd International Conference on Geotechnical Site Characterization ISC-2Porto2004Search in Google Scholar
Kowalski P., Czyżak M., Smyk R.: Comparison of edge detection algorithms for electric wire recognition, ITM Web of Conferences 19, 01044, 2018KowalskiP.CzyżakM.SmykR.Comparison of edge detection algorithms for electric wire recognitionITM Web of Conferences1901044201810.1051/itmconf/20181901044Search in Google Scholar
Lim Yi Xian, Numerical study of cone penetration test in clays using press-replace method, National University of Singapore, 2017LimYi XianNumerical study of cone penetration test in clays using press-replace methodNational University of Singapore2017Search in Google Scholar
Lunne T., Robertson P.K., Powell J.J.M.: Cone penetration testing in geotechnical practice, Blackie Academic, EF SPON/Routledge Publishing, 1997LunneT.RobertsonP.K.PowellJ.J.M.Cone penetration testing in geotechnical practiceBlackie Academic, EF SPON/Routledge Publishing1997Search in Google Scholar
Roberson P.K. Wride C.E. Evaluating cyclic liquefaction potential using the cone penetration test, Canadian Geotechnical Journal, pp. 442–459, 1998RobersonP.K.WrideC.E.Evaluating cyclic liquefaction potential using the cone penetration testCanadian Geotechnical Journal442459199810.1139/t98-017Search in Google Scholar
Robertson P.K.: Cone penetration test (CPT) – based soil behaviour type (SBT) classification system- an update. Canadian Geotechnical Journal, pp. 1910–1927, 2016RobertsonP.K.Cone penetration test (CPT) – based soil behaviour type (SBT) classification system- an updateCanadian Geotechnical Journal19101927201610.1139/cgj-2016-0044Search in Google Scholar
Robertson P.K.: Interpretation of cone penetration test – a unified approach, Canadian Geotechnical Journal 46(11), pp. 1337–1355, 2009RobertsonP.K.Interpretation of cone penetration test – a unified approachCanadian Geotechnical Journal461113371355200910.1139/T09-065Search in Google Scholar
Robertson P.K.: Soil classification using the cone penetration test, Canadian Geotechnical Journal 27(1), pp. 151–159, 1990RobertsonP.K.Soil classification using the cone penetration testCanadian Geotechnical Journal271151159199010.1139/t90-014Search in Google Scholar
Rybak J., Stilger-Szydło E.: Importance and errors in the identification of the ground in the foundation of land transport infrastructure structures (in Polish), Nowoczesne Budownictwo Inżynieryjne 4, pp. 60–65, 2010RybakJ.Stilger-SzydłoE.Importance and errors in the identification of the ground in the foundation of land transport infrastructure structures (in Polish)Nowoczesne Budownictwo Inżynieryjne460652010Search in Google Scholar
Van Baars, S.: 100 Years of Prandtl's Wedge, Amsterdam: IOS Press, Incorporated, 2018Van BaarsS.100 Years of Prandtl's WedgeAmsterdamIOS Press, Incorporated2018Search in Google Scholar
Vreugdenhil R., Davis R., Berrill J.: Interpretation of cone penetration results in multi-layered soils, International Journal for Numerical and Analytical Methods in Geomechanics, vol. 18, 585–599, 1994VreugdenhilR.DavisR.BerrillJ.Interpretation of cone penetration results in multi-layered soilsInternational Journal for Numerical and Analytical Methods in Geomechanics18585599199410.1002/nag.1610180902Search in Google Scholar
Wang H, Wang X., Wellmann F, Liang R., A Bayesian unsupervised learning approach for identifying soil stratification using cone penetration data. Canadian Geotechnical Journal, 2018WangHWangX.WellmannFLiangR.A Bayesian unsupervised learning approach for identifying soil stratification using cone penetration dataCanadian Geotechnical Journal201810.1139/cgj-2017-0709Search in Google Scholar
Wang Y., Huang K., Cao Z., Probabilistic identification of underground soil stratification using cone penetrations test, Canadian Geotechnical Journal, pp. 766–776, 2013WangY.HuangK.CaoZ.Probabilistic identification of underground soil stratification using cone penetrations testCanadian Geotechnical Journal766776201310.1139/cgj-2013-0004Search in Google Scholar
