Environmental Engineering Reference
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Christian, J.T., and Swiger, W.F. 1975. Statistics of liquefaction and SPT results.
Journal of Geotechnical
Engineering
, 101(11), 1135-1150.
Dashti, S., Bray, J., Pestana, J., Riemer, M., and Wilson, D. 2010. Mechanisms of seismically induced
settlement of buildings with shallow foundations on liquefiable soil.
Journal of Geotechnical and
Geoenvironmental Engineering
, 136(1), 151-164.
Edwards, A.W.F. 1974. The history of likelihood.
International Statistical Review
, 42(1), 9-15.
Fenton, G. 1999. Estimation for stochastic soil models.
Journal of Geotechnical and Geoenvironmental
Engineering
, 125(6), 470-485.
Gentle, J.E. 2002.
Elements of Computational Statistics
, Springer-Verlag, New York.
Givens, G., and Hoeting, J. 2005.
Computational Statistics
, Wiley, New York.
Hoffmann, J.P. 2004.
Generalized Linear Models: An Applied Approach
, Pearson, Boston.
Hwang, J.H., Chen, C.H., and Juang, C.H. 2005.
Liquefaction Hazard Analysis: A Fully Probabilistic
Method
, Geotechnical Special Publication No. 133, ASCE, Reston, VA.
Ishihara, K., and Yoshimine, M. 1992. Evaluation of settlements in sand deposits following liquefaction
during earthquakes.
Soils and Foundations
, 32(1), 173-188.
Juang, C.H., Rosowsky, D.V., and Tang, W.H. 1999. Reliability-based method for assessing liquefaction
potential of sandy soils.
Journal of Geotechnical and Geoenvironmental Engineering
, 125(8),
684-689.
Juang, C.H., Chen, C.J., Rosowsky, D.V., and Tang, W.H. 2000. CPT-based liquefaction analysis, Part
2: Reliability for design,
Geotechnique
, 50(5), 593-599.
Juang, C., Jiang, T., and Andrus, R. 2002. Assessing probability-based methods for liquefaction poten-
tial evaluation.
Journal of Geotechnical and Geoenvironmental Engineering
, 128(7), 580-589.
Juang, C.H., Yuan, H., Lee, D.H., and Lin, P.S. 2003. Simplified cone penetration test-based method
for evaluating liquefaction resistance of soils.
Journal of Geotechnical and Geoenvironmental
Engineering
, 129(1), 66-80.
Juang, C.H., Fang, S.Y., and Khor, E.H. 2006. First order reliability method for probabilistic liquefac-
tion triggering analysis using CPT,
Journal of Geotechnical and Geoenvironmental Engineering
,
132(3), 337-350.
Juang, C.H., Fang, S.Y., Tang, W.H., Khor, E.H., Kung, G.T.C., and Zhang, J. 2009. Evaluating model
uncertainty of an SPT-based simplified method for reliability analysis for probability of liquefac-
tion,
Soils and Foundations
, 49(1), 147-152.
Juang, C.H., Ching, J., Wang, L., Khoshnevisan, S., and Ku, C.S. 2013. Simplified procedure for estima-
tion of liquefaction-induced settlement and site-specific probabilistic settlement exceedance curve
using cone penetration test (CPT).
Canadian Geotechnical Journal
, 50(10), 1055-1066.
Ku, C.S., Juang, C.H., Chang, C.W., and Ching, J. 2012. Probabilistic version of the Robertson and
Wride method for liquefaction evaluation: Development and application.
Canadian Geotechnical
Journal
, 49(1), 27-44.
Lai, S.Y., Chang, W.J., and Lin, P.S. 2006. Logistic regression model for evaluating soil liquefaction
probability using CPT data.
Journal of Geotechnical and Geoenvironmental Engineering
, 132(6),
694-704.
Law, A.M., and Kelton, W.D. 2000.
Simulation Modeling and Analysis
, 3rd edition, McGraw-Hill, New
York.
Lee, K.L., and Albaisa, A. 1974. Earthquake-induced settlement in saturated sand.
Journal of
Geotechnical Engineering Division
, 100(4), 387-406.
Lehmann, E., and Casella, G. 1998.
Theory of Point Estimation
, 2nd edition, Springer-Verlag, New
York.
Liao, S.S.C., Veneziano, D., and Whitman, R.V. 1988. Regression model for evaluating liquefaction
probability.
Journal of Geotechnical Engineering
, 114(4), 389-410.
Manski, C.F., and Lerman, S.R. 1977. The estimation of choice probabilities from choice-based sam-
ples.
Econometrica
, 45(8), 1977-1988.
Moss, R.E.S., Seed, R.B., Kayen, R.E., Stewart, J.P., Der Kiureghian, A., Cetin, K.O. 2006. CPT-based
probabilistic and deterministic assessment of
in situ
seismic soil liquefaction potential.
Journal of
Geotechnical and Geoenvironmental Engineering
, 132(8), 1032-1051.
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