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Optimization of Finite Dimensional Structures

Makoto Ohsaki
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A01=Makoto Ohsaki
Adjoint Variable Method
advanced structural optimization techniques
Approximate Optimal Solutions
area
Author_Makoto Ohsaki
Bezier Curve
Category=PB
civil engineering structures
Conguration Optimization
coordinates
cross-sectional
Design Sensitivity Analysis
Displacement Vector
Double Web Angle
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
frame analysis methods
Interior Point Method
ith
Ith Member
load bearing design
matrix
member
member stress optimization
Mixed Design Variables
Mop Problem
nodal
Optimal Cross-sectional Areas
Optimal Truss
Optimality Criteria Approach
Optimization of Building Frames
Optimization of Spatial Trusses and Frames
Pareto Optimal Solutions
Pareto Solutions
Plane Frame
Relaxed LP Problem
Semi-rigid Connections
spatial dome engineering
stiness
Stiness Matrix
Stress Constraints
structural
Tabu List
Topology Optimization
Topology Optimization of Trusses
Topology Optimization Problem
total
Total Structural Volume
Various Formulations of Structural Optimization
vibration eigenvalue constraints

Product details

  • ISBN 9781138113657
  • Weight: 453g
  • Dimensions: 156 x 234mm
  • Publication Date: 14 Jun 2017
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Paperback
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Description

Originally developed for mechanical and aeronautical engineering, structural optimization is not so easily applied to civil and architectural engineering, as structures in these fields are not mass products, but more often unique structures planned in accordance with specific design requirements. The shape and geometry of such structures are determined by a designer or an architect in view of nonstructural performance that includes aesthetics. Until now, books in this area gave little help to engineers working in cooperation with designers, as they covered conceptual material with little consideration of civil engineering applications, or they required a solid background in applied mathematics and continuum mechanics, an area not usually studied by practicing engineers and students in civil engineering.

Optimization of Finite Dimensional Structures introduces methodologies and applications that are closely related to design problems encountered in structural optimization, to serve as a bridge between the communities of structural optimization in mechanical engineering and the researchers and engineers in civil engineering. This unparalleled, self-contained work:

  • Provides readers with the basics of optimization of frame structures, such as trusses, building frames, and long-span structures, with descriptions of various applications to real-world problems
  • Summarizes the historical development of methodologies and theorems on optimization of frame structures
  • Introduces many recently developed highly efficient optimization techniques presented with illustrative examples
  • Describes traditional problems with constraints on limit loads, member stresses, compliance, and eigenvalues of vibration, all in detail
  • Offers a unique look at optimization results for spatial trusses and latticed domes

Mathematical preliminaries and methodologies are summarized in the book’s appendix, so that readers can attend to the details when needed without having to wade through tedious mathematics in the explanatory main chapters. Instead, small examples that can be solved by hand or by using a simple program are presented in these chapters, making the book readily accessible and highly useful for both classroom use and professional self-study.

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