An empirical comparison of machine learning techniques for dam behaviour modelling

Swiss Committee on Dams, Methods of analysis for the prediction and the verification of dam behaviour, tech. rep., ICOLD; 2003.

Chouinard L, Roy V, Performance of statistical models for dam monitoring data, in: Joint international conference on computing and decision making in civil and building engineering, Montreal; June, 2006, p. 199–207.

Simon A, Royer M, Mauris F, Fabre J, Analysis and interpretation of dam measurements using artificial neural networks, in: 9th ICOLD european club symposium, Venice, Italy; 2013.

Lombardi, 2008, Algorithm for the prediction of functional delays in the behaviour of concrete dams, Hydropower Dams, 111

International Commission on Large Dams, Dam surveillance guide, tech. rep. B-158, ICOLD; 2012.

Restelli F, Systemic evaluation of the response of large dams instrumentation. Application at El Chocón Dam, in: 9th ICOLD European Club symposium, Venice, Italy; 2013.

Tatin M, Briffaut M, Dufour F, Simon A, Fabre J, Thermal displacements of concrete dams: Finite element and statistical modelling, in: 9th ICOLD European Club symposium, Venice, Italy; 2013.

Bonelli, 2008, Impulse response function analysis of pore pressure in earthdams, Eur J Environ Civil Eng, 12, 243, 10.1080/19648189.2008.9693012

Li, 2013, Towards an error correction model for dam monitoring data analysis based on cointegration theory, Struct Saf, 43, 12, 10.1016/j.strusafe.2013.02.005

Riquelme F, Fraile J, Santillan D, Moran R, Toledo M, Application of artificial neural network models to determine movements in an arch dam, in: 2nd International congress on dam maintenance and rehabilitation, Zaragoza, Spain; 2011, p. 117–123.

Santillán, 2014, Prediction of gauge readings of filtration in arch dams using artificial neural networks, Water Technol Sci, 5, 81

Mata, 2011, Interpretation of concrete dam behaviour with artificial neural network and multiple linear regression models, Eng Struct, 3, 903, 10.1016/j.engstruct.2010.12.011

Bishop, 1995

Ranković, 2012, Modelling of dam behaviour based on neuro-fuzzy identification, Eng Struct, 35, 107, 10.1016/j.engstruct.2011.11.011

Piroddi, 2003, Long-range nonlinear prediction: a case study, vol. 4, 3984

Saouma V, Hansen E, Rajagopalan B, Statistical and 3d nonlinear finite element analysis of Schlegeis dam, tech. rep., University of Colorado; 2001.

Herrera, 2010, Predictive models for forecasting hourly urban water demand, J Hydrol, 387, 141, 10.1016/j.jhydrol.2010.04.005

Lombardi G, Advanced data interpretation for diagnosis of concrete dams, tech. rep., CISM; 2004.

De Sortis, 2007, Statistical analysis and structural identification in concrete dam monitoring, Eng Struct, 29, 110, 10.1016/j.engstruct.2006.04.022

Seifard L, Szpilman A, Piasentin C, Itaipú structures. Evaluation of their performance, in: 15th ICOLD congress; 1985, p. 287–317, Q56–R15.

Guedes Q, Coelho P, Statistical behaviour model of dams, in: 15th ICOLD congress; 1985, p. 319–334, Q56–R16.

Sánchez Caro FJ, Dam safety: contributions to the deformation analysis and monitoring as an element of prevention of pathologies of geotechnical origin, Ph.D. thesis, UPM, [in Spanish]; 2007.

R Core Team, R: A language and environment for statistical computing, R foundation for statistical computing, Vienna, Austria; 2013. URL <http://www.R-project.org/>.

Wickham, 2009

Breiman, 1984

Breiman, 2001, Random forests, Mach Learning, 45, 05, 10.1023/A:1010933404324

Genuer, 2010, Variable selection using random forests, Pattern Recogn Lett, 31, 225, 10.1016/j.patrec.2010.03.014

Liaw, 2002, Classification and regression by randomForest, R News, 2, 18

Friedman, 2001, Greedy function approximation: a gradient boosting machine, Ann Stat, 1189, 10.1214/aos/1013203451

Ridgeway G, Generalized boosted models: a guide to the gbm package, R package vignette; 2007. URL <http://CRAN.R-project.org/package=gbm>.

Venables, 2002

Hastie, 2009

Kuhn, 2008, Building predictive models in R using the caret package, J Stat Softw, 28, 1, 10.18637/jss.v028.i05

Smola, 2004, A tutorial on support vector regression, Stat Comput, 14, 199, 10.1023/B:STCO.0000035301.49549.88

Moguerza, 2006, Support vector machines with applications, Stat Sci, 322, 10.1214/088342306000000493

Ranković, 2014, Development of support vector regression identification model for prediction of dam structural behaviour, Struct Saf, 48, 33, 10.1016/j.strusafe.2014.02.004

Chen, 2004, Load forecasting using support vector machines: a study on eunite competition 2001, IEEE Trans Power Syst, 19, 1821, 10.1109/TPWRS.2004.835679

Meyer D, Dimitriadou E, Hornik K, Weingessel A, Leisch F, e1071: misc functions of the Department of Statistics (e1071), TU Wien, R package version 1.6-1; 2012.

Friedman, 1991, Multivariate adaptive regression splines, Ann Stat, 1, 10.1214/aos/1176347963

Milborrow S, Earth: multivariate adaptive regression spline models, R package version 3.2-6 (2013). URL <http://CRAN.R-project.org/package=earth>.

Breiman, 1984

Weigend, 1992, Predicting sunspots and exchange rates with connectionist networks, vol. 12, 395