Geology Reference
In-Depth Information
Haftka, R. T., & Gurdal, Z. (1992).
Elements of
structural optimization
. Norwell, MA: Kluwer
Academic Publishers.
Moharrami, H. (2006).
Optimality criteria: A
robust nonlinear optimization algorithm.
The
7th International Congress on Civil Engineering,
Tarbiat Modarres University, Tehran, Iran.
Hasan, R., Xu, L., & Grierson, D. E. (2002). Push-
over analysis for performance-based seismic de-
sign.
Computers & Structures
,
80
(31), 2483-2493.
doi:10.1016/S0045-7949(02)00212-2
Moharrami, H., & Alavinasab, A. (2006). An
optimization procedure for automated design
of seismic resistant steel frames.
International
Journal of Civil Engineering
,
4
(2), 86-105.
Jalayer, F., & Cornell, C. A. (2009). Alterna-
tive non-linear demand estimation methods for
probability-based seismic assessments.
Earth-
quake Engineering & Structural Dynamics
,
38
(8),
951-972. doi:10.1002/eqe.876
Owen, D. R. J., & Hinton, E. (1980).
Finite ele-
ments in plasticity- Theory and practice
. Swansea,
UK: Pineridge Press.
Park, G. J., & Kang, B. S. (2003). Validation of
a structural optimization algorithm transforming
dynamic loads into equivalent static loads.
Journal
of Optimization Theory and Applications
,
118
(1),
191-200. doi:10.1023/A:1024799727258
Kim, Y.-I., & Park, G. J. (2010). Nonlinear dy-
namic response structural optimization using
equivalent static loads.
Computer Methods in
Applied Mechanics and Engineering
,
199
(9-12),
660-676. doi:10.1016/j.cma.2009.10.014
Park, K. J., Lee, J. N., & Park, G. J. (2005).
Structural shape optimization using equivalent
static loads transformed from dynamic loads.
International Journal for Numerical Methods
in Engineering
,
63
(4), 589-602. doi:10.1002/
nme.1295
Lagaros, N. D., Garavelas, A. T., & Papadrakakis,
M. (2008). Innovative seismic design optimization
with reliability constraints.
Computer Methods
in Applied Mechanics and Engineering
,
198
(1),
28-41. doi:10.1016/j.cma.2007.12.025
Masson, G., Cogan, S., Bouhaddi, N., Lombard,
J. P., & Bonini, J. (2002). Parameterized reduced
models for efficient optimization of structural
dynamic behavior.
Collection of Technical Pa-
pers - AIAA/ASME/ASCE/AHS/ASC Structures,
Structural Dynamics and Materials Conference
,
(pp. 1434-1440).
Park, Y. J., & Ang, A. H. S. (1985). Mecha-
nistic seismic damage model for reinforced
concrete.
Journal of Structural Engineering
,
111
(4), 722-739. doi:10.1061/(ASCE)0733-
9445(1985)111:4(722)
Park, Y. J., Reinhorn, A. M., & Kunnath, S. K.
(1987).
IDARC: Inelastic damage analysis of
frame sheare-wall structures.
Technical Report
NCEER-87-0008, National Center for Earthquake
Engineering Research, State University of New
York at Buffalo.
Mills-Curran, W. C., & Schmit, L. A. (1985).
Structural optimization with dynamic behaviour
constraints.
AIAA Journal
,
23
(1), 132-138.
doi:10.2514/3.8881
Moharrami, H. (1993).
Design optimization of
reinforced concrete frameworks.
Ph.D. Thesis, The
University of Waterloo, Waterloo, Ontario, Canada
Priestley, M. J. N., Calvi, G. M., & Kowalsky, M.
J. (2007).
Displacement-based seismic design of
structures
. Pavia, Italy: IUSS Press.
Search WWH ::
Custom Search