Geology Reference
In-Depth Information
REFERENCES
Gholizadeh, S., & Salajegheh, E. (2010b). A cel-
lular genetic algorithm for structural optimisation.
In B. H. V. Topping, J. M. Adam, F. J. Pallarés,
R. Bru, & M. L. Romero, (Ed.),
Proceedings of
the Tenth International Conference on Computa-
tional Structures Technology, DATE
, (pp. 1-14).
Stirlingshire, UK: Civil-Comp Press.
ANSYS Incorporated. (2006).
ANSYS release
10.0
, 2006.
Arora, J. S. (1999). Optimization of structures
subjected to dynamic loads. In Leondes, C. T.
(Ed.),
Structural dynamic systems computational
techniques and optimization
(pp. 1-73). Gordon
and Breach Science Publishers.
Gholizadeh, S., Salajegheh, J., & Salajegheh, E.
(2009). An intelligent neural system for predicting
structural response subject to earthquake.
Ad-
vances in Engineering Software
,
40
(8), 630-639.
doi:10.1016/j.advengsoft.2008.11.008
Biondini, F., Bontempi, F., Frangopol, D. M., &
Malerba, P. G. (2004). Cellular automata approach
to durability analysis of concrete structures in
aggressive environments.
Journal of Structural
Engineering
,
130
(11), 1724-1737. doi:10.1061/
(ASCE)0733-9445(2004)130:11(1724)
Gholizadeh, S., & Samavati, O. A. (2011). Struc-
tural optimization by wavelet transforms and neu-
ral networks.
Applied Mathematical Modelling
,
35
(2), 915-929. doi:10.1016/j.apm.2010.07.046
Canyurt, O. E., & Hajela, P. (2005). A cellular
framework for structural analysis and optimiza-
tion.
Computer Methods in Applied Mechan-
ics and Engineering
,
194
(30-33), 3516-3534.
doi:10.1016/j.cma.2005.01.014
Haupt, R. L., & Haupt, S. E. (2004).
Practical ge-
netic algorithms
. New Jersey: Wiley-Interscience
Publication.
Kocer, F. Y., & Arora, J. S. (1999). Optimal design
of H-frame transmission poles for earthquake
loading.
Journal of Structural Engineering
,
125
(11), 1299-1308. doi:10.1061/(ASCE)0733-
9445(1999)125:11(1299)
Gholizadeh, S. (2010). Structural optimization
for earthquake loading with nonlinear responses
by surrogate modeling based evolutionary al-
gorithms.
Asian Journal of Civil Engineering
,
11
(1), 25-42.
Kocer, F. Y., & Arora, J. S. (2002). Optimal de-
sign of latticed towers subjected to earthquake
loading.
Journal of Structural Engineering
,
128
(2), 197-204. doi:10.1061/(ASCE)0733-
9445(2002)128:2(197)
Gholizadeh, S., & Salajegheh, E. (2009). Optimal
design of structures for time history loading by
swarm intelligence and an advanced metamodel.
Computer Methods in Applied Mechanics and En-
gineering
,
198
(37-40), 2936-2949. doi:10.1016/j.
cma.2009.04.010
Lagaros, N. D., Fragiadakis, M., Papadrakakis,
M., & Tsompanakis, Y. (2006). Structural opti-
mization: A tool for evaluating dynamic design
procedures.
Engineering Structures
,
28
(12),
1623-1633. doi:10.1016/j.engstruct.2006.02.014
Gholizadeh, S., & Salajegheh, E. (2010a). Opti-
mal seismic design of steel structures by an ef-
ficient soft computing based algorithm.
Journal
of Constructional Steel Research
,
66
(1), 85-95.
doi:10.1016/j.jcsr.2009.07.006
Lagaros, N. D., & Papadrakakis, M. (2011). (in
press). Neural network based prediction schemes
of the non-linear seismic response of 3D buildings.
Advances in Engineering Software
.
Search WWH ::
Custom Search