DocumentCode
2072843
Title
Computer Simulation and Parameters Estimation for Slope Based on Finite Element Method and Difference Evolution Arithmetic
Author
Annan, Jiang ; Guoshao, Su
Author_Institution
Coll. of Traffic & Logistics Eng., Maritime Univ., Dalian, China
fYear
2009
fDate
26-28 Dec. 2009
Firstpage
483
Lastpage
487
Abstract
Slope stability is one of the classic geotechnical problems, however, because of the parameters uncertainty and complexity of stress-strain relation, the conventional calculation method such as slice method adopts too much hypotheses and can not express the actual mechanical behavior of slope. Aiming to these problems, this paper exploit a slope simulation program based on difference evolution algorithm and finite element method, which can simulate the displacement and stress distribution of slope and identify actual soil parameters based on monitoring data. The theory of algorithm and program procedure are introduced. A typical calculation sample is studied using the developed program, the calculated stress and strain distribution is reasonable and the identifying parameters of the elastic modulus and Poisson ration of the soil is accuracy. The convergence performances corresponding to different F and CR of DE algorithm are also compared. It states that the program is feasible and has good adaptability for complex slope calculation.
Keywords
Poisson ratio; difference equations; digital simulation; evolutionary computation; finite element analysis; geotechnical engineering; parameter estimation; soil; stress-strain relations; DE algorithm; Poisson ration; algorithm theory; computer simulation; difference evolution arithmetic; elastic modulus; finite element method; geotechnical problems; parameter estimation; slope simulation program; slope stability; soil parameters; strain distribution; stress distribution; stress strain relation; Capacitive sensors; Computer simulation; Condition monitoring; Digital arithmetic; Finite element methods; Parameter estimation; Soil; Stability; Stress; Uncertain systems; Difference evolution; Finite element method; Numerical simulation; Parameters identification; Slope;
fLanguage
English
Publisher
ieee
Conference_Titel
Information Science and Engineering (ISISE), 2009 Second International Symposium on
Conference_Location
Shanghai
Print_ISBN
978-1-4244-6325-1
Electronic_ISBN
978-1-4244-6326-8
Type
conf
DOI
10.1109/ISISE.2009.20
Filename
5447286
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