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Optimization methods are increasingly used to design
structures. Structural optimization with linear
static analysis is pretty much mature in methodology
and therefore several codes now have optimization
capability for linear analysis. This is in contrast
to optimization with crash and impact responses
encountered in automotive, defense, transportation
safety and other fields. Impact responses do not
present simplicities as with linear static
responses. They are highly nonlinear and noisy (i.e.
non smooth) preventing the use of conventional
optimization methods based on gradients or
sensitivities. Also, impact analyses are usually
computationally costly. Such difficulties motivated
the development of effective and efficient methods
for impact optimization. This book elaborates
structural optimization procedure under crash and
impact loading. For this purpose, analysis and
optimization methods are discussed indetail.
Impact optimization problems are solved from several
areas.
structures. Structural optimization with linear
static analysis is pretty much mature in methodology
and therefore several codes now have optimization
capability for linear analysis. This is in contrast
to optimization with crash and impact responses
encountered in automotive, defense, transportation
safety and other fields. Impact responses do not
present simplicities as with linear static
responses. They are highly nonlinear and noisy (i.e.
non smooth) preventing the use of conventional
optimization methods based on gradients or
sensitivities. Also, impact analyses are usually
computationally costly. Such difficulties motivated
the development of effective and efficient methods
for impact optimization. This book elaborates
structural optimization procedure under crash and
impact loading. For this purpose, analysis and
optimization methods are discussed indetail.
Impact optimization problems are solved from several
areas.