[Benjamin J. R., Cornell C. A. (1970) Probability, Statistics, and Decision for Civil Engineers, McGraw-Hill Book Co., New York.]Search in Google Scholar
[Horn A. (1964) Die Scherfestigkeit von Schluff, Westdeutschr Verlag, Koln.10.1007/978-3-663-07036-8]Search in Google Scholar
[Kezdi A. (1969) Handbuch der Bodenmechanik, Akademiai Kiado, Budapest.]Search in Google Scholar
[Kezdi A., Młynarek Z. (1980) Static penetration test results with soils having slight or medium cohesion, Acta Technica Academiae Scientiarum Hungaricae, 90 (3-4), 187-199.]Search in Google Scholar
[Lunne T., Powel J. J. M, Hauge E.A., Uglow I. M., Mokkelbost K. H. (1990) Correlation of Dilatometer Readings to Lateral Stress, Proc. of Special Session on Measurement of Lateral Stress. 69th Annual Meeting of the Transportation Research Board, Washington D. C.]Search in Google Scholar
[Lunne T., Robertson P. K., Powell J. (1997) Cone penetration testing in geotechnical practice, E&FN Spon, London.]Search in Google Scholar
[Mayne P. W. (1995) Profiling Yield Stress in Clays by In-Situ Tests, Transportation Research Record 1479, National Academy Press, Washington, D. C., 43-50.]Search in Google Scholar
[Mayne P. W., Coop M. R., Springman S., Huang A. B. and Zornberg J. (2009) State-of-the-Art Paper (SOA-1): GeoMaterial Behavior and Testing, Proc. of 17th Intl. Conf. on Soil Mechanics & Geotechnical Engineering, 4 (ICSMGE, Alexandria, Egypt), Millpress/IOS Press Rotterdam: 2777-2872.]Search in Google Scholar
[Młynarek Z. (2010) Quality of laboratory and in-situ test contribution to risk management, Proc. Of 14th Danube-European Conference on Geotechnical Engineering, Bratislava, Slovakia.]Search in Google Scholar
[Młynarek Z., TschuskcheW., Sanglerat G. (1988) Accuracy of embankment density assessment of cone penetration test and light dynamic probe, Proc. of ISOPT-1988, Orlando, Balkema, 869-874.]Search in Google Scholar
[Młynarek Z. (1970) Application of static cone penetration test in evaluation of the consistency and strength properties of sandy clay, PhD Thesis (in Polish), University of Life Sciences, Poznan.]Search in Google Scholar
[Młynarek Z., Wierzbicki J., Wołyński W. (2007) An approach to 3D subsoil model based on CPTU results, Proc. of 14th European Conference on Soil Mechanics and Geotechnical Engineering, Madrid. Vol. 3. Millpress Rotterdam, 1721-1726.]Search in Google Scholar
[Robertson P. K. (2009) Interpretation of Cone Penetration Testing - a unified approach, Canadian Geotechnical Journal, 46 (11), 1337-1355.10.1139/T09-065]Search in Google Scholar
[Sandven R., Senneset K., Janbu N. (1988) Interpretation of piezocone tests in cohesive soils, Proc. ISOPT-1, Orlando 939-953.]Search in Google Scholar
[Schnaid F. (2009) In Situ Testing in Geomechanics, Taylor & Francis, London and New York.10.1201/9781482266054]Search in Google Scholar
[Senneset K., Janbu N., Svano G. (1982) Strength and deformation parameters from cone penetration tests, Proc. ESOPT-2, Amsterdam, Balkema Publ., Rotterdam 863-870.]Search in Google Scholar
[Tumay M. T., Karasulu H., Mlynarek Z., Wierzbicki J. (2011) Effectiveness of Piezo Cone Penetration Test classification charts for identification of subsoil stratigraphy, Proc. of 12th ECSMGE, Athens.]Search in Google Scholar
[Viana da Fonseca A., Silva S. R, Cruz N. (2010) Geotechnical characterization by in situ and lab tests to the back-analysis of a supported excavation in Metro do Porto, Geotech Geol Eng (28), 251-264.10.1007/s10706-008-9183-6]Search in Google Scholar
[Wierzbicki J. (2010) Evaluation of subsoil overconsolidation by means of in situ tests in the context of its origin, Rozprawy Naukowe nr 410, Wydawnictwo Uniwersytetu Przyrodniczego w Poznaniu, ISSN 1896-1894, 182 pp. (in Polish).]Search in Google Scholar
[Wiłun Z. (2000) The epitome of geotechnique (in Polish), Wyd. Komunikacji i Łaczności, Warszawa.]Search in Google Scholar