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Geotechnical and Geological Engineering
Erschienen in: Geotechnical and Geological Engineering 4/2012

01.08.2012

Planning Geotechnical Investigation Using ANFIS

verfasst von: Bojan Žlender, Primož Jelušič, Djamalddine Boumezerane

Erschienen in: Geotechnical and Geological Engineering | Ausgabe 4/2012

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Abstract

Engineering experience may be written in mathematical form by using adaptive network-based fuzzy inference system (ANFIS). In this article we propose a method to use engineering experience and build a model, which can be used as a systematic decision support tool for engineers dealing with new problems. Planning geotechnical investigations is based on experience, which are used to obtain optimal number of investigation points, field and laboratory tests. To achieve this objective we define minimum number of investigation points and several input parameters which could increase or decrease the number of investigation points. The expert’s evaluations were put in a table, from which we generate the basis of the system. The paper presents a concept for planning geotechnical investigation for buildings using ANFIS and practical examples show its usefulness.
Vorheriger Artikel Simplified Regression Model to Predict the Strength of Reinforced Sand with Waste Polystyrene Plastic Type
Nächster Artikel Evaluating Kinematic Controls on Planar Translational Slope Failure Mechanisms Using Three-Dimensional Distinct Element Modelling

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Literatur
Baecher G, Christian JT (2003) Reliability and statistics in geotechnical engineering. Wiley, New York
Bezdec JC (1981) Pattern recognition with fuzzy objective function algorithms. Plenum Press, New YorkCrossRef
Boissier D (2000) Décision et incomplétude. Rev Fr Géotech 93:81–92
Bond A, Harris A (2008) Decoding Eurocode 7. Taylor & Francis Group, London
Boumezerane D, Belkacemi S, Zlender B (2011) Fuzzy sets decision support system for geotechnical site soundings. Acta Geotechnica Slovenica 8(1):51–63
Cambefort H (1980) Géotechnique de l’Ingénieur, reconnaissance des sols. Eyrolles Editeur, Paris
Chuang PH (1995) Use of fuzzy sets for evaluating Shear strength of soils. Comput Geotech 17(4):425–446
Clayton CRI, Matthews MC, Simons NE (2005) Site investigation. Department of Civil Engineering, University of Surrey, Department of Civil Engineering
Dodagoudar GR, Venkatachalam G (2000) Reliability analysis of slopes using fuzzy sets theory. Comput Geotech 27:101–115CrossRef
EN 1997-1 (2005) Geotechnical design - Part 1: General rules (Eurocode 7-1)
EN 1997-2 (2007) Geotechnical design—part 2: ground investigation and testing (Eurocode 7-2)
Fetz J, Jäger J et al (1999) Fuzzy models in geotechnical engineering and construction management. Comput Aided Civil Infrastruct Eng 14(2):93–106CrossRef
Giasi CI, Masi P, Cherubini C (2003) Probabilistic and fuzzy reliability analysis of a sample slope near Aliano. Eng Geol 67:391–402CrossRef
Hu Z, Chan CW, Huang GH (2003) A fuzzy expert system for site characterization. Expert Syst Appl 24(2003):123–131CrossRef
Huang YT, Siller TJ (1997) Fuzzy representation and reasoning in geotechnical site characterization. Comput Geotech 21:65–86CrossRef
Jang JR (1993) ANFIS: adaptive-network-based fuzzy inference system. IEEE Transactions on Systems, Man, and Cybernetics 23:665–685CrossRef
Look BG (2007) Handbook of geotechnical investigation and design tables. Balkema Taylor & Francis Group, LondonCrossRef
Magnan JP (2000) Quelques spécificités du problème des incertitudes en géotechnique. Rev Fr Géotech 93:3–9
Mamdani EH, Assilian S (1975) An experiment in linguistic synthesis with a fuzzy logic controller. Int J Man-Mach Stud 7:1–13CrossRef
Nawari NO, Liang R (2000) Fuzzy-based approach for determination of characteristic values of measured geotechnical parameters. Can Geotech J 37:1131–1140CrossRef
Romo MP, Garcia SR (2003) Neurofuzzy mapping of CPT values into soil dynamic properties. Soil Dyn Earthq Eng 23:473–482CrossRef
Rumelhart DE, Hinton GE, Williams RJ (1986) Learning representations by back-propagating errors. Nature 323:533–536CrossRef
Sabatini PJ et al (2002) Evaluation of soil and rock properties. Geotechnical Engineering Circular 5 (GEC5), Report No FHWA-IF-02-034, Federal Highway Administration, U.S. Department of Transportation
Santamarina JC, Chameau JL (1989) Limitations in decision making and system performance. J Perform Constr Facil 3:78–86CrossRef
Schönhardt M, Witt KJ (2003) Adaptive ground modelling in geotechnical engineering. In: Proceedings of the international symposium on geotechnical measurements and modelling 23–25 September 2003, Balkema Publishers, Karlsruhe, Germany, pp 297–305
Strater NH, McKown AF (2002) Draft report on preliminary geotechnical studies, Proposed Beverly High School Building Addition, Beverly, Massachusetts. Haley & Aldrich Inc., Boston Massachusetts, file No. 28022-001
Sugeno M (1985) Industrial applications of fuzzy control. Elsevier Science Pub. Co, New York
Metadaten
Titel
Planning Geotechnical Investigation Using ANFIS
verfasst von
Bojan Žlender
Primož Jelušič
Djamalddine Boumezerane
Publikationsdatum
01.08.2012
Verlag
Springer Netherlands
Erschienen in
Geotechnical and Geological Engineering / Ausgabe 4/2012
Print ISSN: 0960-3182
Elektronische ISSN: 1573-1529
DOI
https://doi.org/10.1007/s10706-012-9520-7

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