References
- Das, B.M. (1983): Advanced soil mechanics. Hemisphere Publishing Corporation: Washington, DC, 51 p.
- Teng, W.C. (1962): Foundation Design. Prentice-Hall International, Inc.: Englewood Cliffs, N.J., 119 p.
- Peck, R.B., Hanson, W.E., Thornburn, T.H. (1953): Foundation Engineering. John Wiley & Sons, Inc.: New York, 243 p.
- Terzaghi, K., Peck, R.B. (1967): Soil Mechanics in Engineering Practice, 2nd edition. John Wiley & Sons, Inc.: New York, 491 p.
- Garg, S.K. (2009): Soil mechanics and foundation engineering, 7th revised edition. Khanna Publishers: New Delhi, 752 p.
- Vesic, A.S. (1963): Bearing capacity of deep foundation in sand. Highway Research Method. No. 39, pp. 112–153.
- Olorunfemi, M.O., Idonigie, A.I., Coker A.T., Babadiya, G.E. (2004): The Application of the Electrical Resistivity Method in Foundation Failure Investigation. A Case Study of O.A.U. Ile-Ife, Dental Clinic. Global Journal of Geophysical Science, 2(1), pp. 139–151.
- Oyedele, K.F., Olorode, D.O. (2010): On Site Investigation of Subsurface Conditions using Electrical Resistivity Method and Cone Penetration Test at ‘Medina Brook Estate, Gbagada, Lagos, Nigeria. World Applied Science Journal, 11(9), pp. 1097–1104.
- Oyedele, K.F., Bankole, O.O. (2009): Subsurface Stratigraphic Mapping using Geophysics and its impact in urbanization in Arepo area, Ogun State, Nigeria. New York Science Journal, (5)2, pp. 31–45.
- Loke, M.H., Barker, R.D. (1996): Rapid least-squares inversion of apparent resistivity pseudosections by a quasi-Newton method. Geophysical Prospecting 44, pp. 131–152.
- Badmus, B.S., Akinyemi, O.D., Olowofela, J.A., Folarin, G.M. (2012): 3D electrical resistivity tomography survey for the basement of the Abeokuta terrain of Southwestern Nigeria. J. Geol. Soc. India, 80, p. 845, DOI: 10.1007/s12594-012-0213-x.
- Sharma, P.V. (1997): Environmental and Engineering Geophysics. Cambridge University Press, p. 173.
- Olayanju, G.M., Mogaji, K.A., Lim, H.S., Ojo, T.S. (2017): Foundation integrity assessment using integrated geophysical and geotechnical techniques: case study in crystalline basement complex, southwestern Nigeria. Journal of Geophysics and Engineering 14(3), pp. 675–690.
- ISOPT-1. (1988): Cone penetration test. International reference test procedure. In: Proceedings of the First International Symposium on Penetrating Testing, ISOPT-1, Orlando California, de Ruiter, J. (ed.). A.A. Balkema: Rotterdam; Brookfield.
- Huijzer, G.P. (1990): Automated stratigraphic classification of CPT data. In: Proceedings 6th International Congress IAEG, Amsterdam, Price, D.G (ed.). A.A. Balkema: Rotterdam; Brookfield, pp. 309–311.
- Juang, C.H., Huang, X.H., Holtz, R.D., Chen, J.W. (1996): Determining relative density of sands from CPT using fuzzy sets. Journal of Geotechnical Engineering, 122(1).
- Harder, H., Von, B.V. (1988): Determination of representative CPT parameters. Penetration testing in the UK. In: Proceedings of the Geotechnology Conference, Birmingham, Telford, T. (ed.). London, pp 237–240.
- Broms, B.B. (1986): Penetration tests. In: Proceedings of the 4th International Geotechnical Seminar, Singapore. Nanyang Technological Institute: Singapore.
- Biddle, D.W. (1989): Penetration testing in the UK. In: Proceedings of the Geotechnology Conference, Birmingham, Telford, T. (ed.). London, pp 189–191.
- Owuama, C.O. (2000): A comprehensive method of interpretation of static cone data. NSE Technical Transactions, 35(1), pp. 53–66.
- Lunne, T., Robertson, P.K., Powell, J.J.M. (1997): Cone Penetration Testing in Geotechnical Practice. Blackie Academic and Professional: London, 312 p.
- Schmertmann, J. H. (1970): Static Cone to Compute Static Settlement over Sand. Journal of the Soil Mechanics and Foundations Division, 96(SM3), pp. 1011–1043.
- Iloeje, M.P. (1981): A new Geography of Nigeria. Longman: Nigeria, pp. 26–28.
- Rahaman, M.A. (1982): Review of the Basement Geology of Southwestern Nigeria. In: Geology of Nigeria, Kogbe C.A. (ed.). Elizabethan Pub. Co.: Lagos, pp. 41–58.
- Jones, H.A., Hockey, R.D. (1964): The geology of part of Southwestern Nigeria. Geological Survey of Nigeria, Bull. 31, p. 87.
- Okosun, E.A. (1998): Review of the Early Stratigraphy of Southwestern Nigeria. Journal of Mining and Geology, 34(1), pp. 27–35.
- Omatsola, M.E., Adegoke, O.S. (1981): Tectonic evolution and cretaceous stratigraphy of the Dahomey Basin. Nigerian Journal of Mining and Geology, 18(1), pp. 130–137.
- Zhdanov, M.S., Keller, G.V. (1994): The Geoelectrical methods in geophysical exploration. Elsevier: Amsterdam, 873 p.
- Keller, G.V., Frischknecht, F.C. (1966): Electrical Methods in Geophysical Prospecting. Pergamon Press: Oxford, 519 p.
- Telford, W.M., Geldart, L.P., Sheriff, R.E. (1990): Applied Geophysics, 2nd edition. Cambridge University Press: Cambridge, 792 p.
- Sirles, P. (2006): Advancement in 3D Subsurface Modelling using Seismic Refraction Data- A new perspective. In: Proceedings for GEOPHYSICS 2006, 3rd International Conference on Applied Geophysics, St. Louis MO.
- Cosenza, P., Marmet, E., Rejiba, F., Cui, Y.J., Tabbagh, A., Charlery, Y. (2006): Correlations between geotechnical and electrical data: a case study at Garchy in France. Journal of Applied Geophysics, 60, pp. 165–178.
- Robertson, P.K., Campanella, R.G. (1983): Interpretation of cone penetration test part 1 sand. Canadian Geotechnical Journal, 30(4), pp. 734–745.
- Mazlan, A. (2007): Correlation between Cone Penetration Test and Bearing Capacity for Shallow Foundation. Master's Thesis. Universiti Teknologi Malaysia.
- Meyerhof, G.G. (1976): Bearing capacity and settlement of pile foundations. ASCE Journal of the Geotechnical Engineering, 12(GT3), pp.194–228.
- Schmertmann, J.H. (1978): Guidelines for Cone Penetration Test, Performance and Design. U.S. Department of Transportation, Report No. FHWATS-78–209, Washington, D.C., p.145.
- British Standard Institutions (1990): Methods of Test for soils for Civil Engineering Purposes. B.S 1377: Part 2, 1990, pp. 8–200.
- Stroud, M.A., Butler, F.G. (1975): The standard penetration test and the engineering properties of Glacial materials. In: Proceedings of the Symposium of glacial materials, University of Birmingham.
- Upadhyay, A.K. (2015): Soil and Foundation Engineering, Second Edition. S.K. Kataria & Sons: New Delhi, 245 p.
- Federal Ministry of Works and Housing (1972): Highway Manual Part 1 Road Design, Federal Ministry of Works and Housing: Lagos.
- Jegede, G. (2000): Effect of soil properties on pavement failure along the F209 highway at Ado-Ekiti, Southwestern Nigeria. Journal of Construction and Building Materials, 14, pp. 311–315.
- Bell, F.G. (2007): Engineering Geology. Elsevier, 352 p.
- Robertson, P.K. (1990): Soil classification using the cone penetration test. Canadian Geotechnical Journal, 27, pp. 151–158.
- Vesic, A.S. (1967): Ultimate loads and settlement of deep foundations in sand. In: Proc. Symp. bearing capacity and settlement of foundations. Duke University, pp 53–68.
- Eslami, A., Gholami, M. (2002): Bearing capacity of shallow foundations from CPT data. In: Proceeding of 3rd Iranian International Conference on Geotechnical Engineering and Soil Mechanics, pp. 93–97.