Description

Book Synopsis
While the weight of a structure constitutes a significant part of the cost, a minimum weight design is not necessarily the minimum cost design. Little attention in structural optimization has been paid to the cost optimization problem, particularly of realistic three-dimensional structures.

Table of Contents
Preface.

Acknowledgments.

About the Authors.

Introduction.

1.1 The Case for Cost Optimization.

1.2 Cost Optimization of Concrete Structures.

1.3 Cost Optimization of Steel Structures.

2 Evolutionary Computing and Genetic Algorithm.

2.1 Overview and Basic Operations.

2.2 Coding and Decoding.

2.3 Basic Operations in Genetic Algorithm.

2.4 GA with Penalty Function Method.

2.5 Augmented LaGrange Method.

2.6 GA with Augmented Lagrangian Method.

3 Cost Optimization of Composite Floors.

3.1 Introduction.

3.2 Minimum Cost Design of Composite Beams.

3.3 Solution by Floating-Point Genetic Algorithm.

3.4 Solution by Neural Dynamics Method.

3.5 Counter Propagation Neural (CPN) Network.

For Function Approximation.

3.6Examples.

4 Fuzzy Genetic Algorithm for Optimization of Steel Structures.

4.1 Introduction.

4.2 Fuzzy Set Theory and Structural Optimization.

4.3 Minimum Weight Design of Axially Loaded Space Structures.

4.4 Fuzzy Membership Functions.

4.5 Fuzzy Augmented Lagrangian Genetic Algorithm.

4.6 Implementation and Examples.

4.7 Conclusion.

5 Fuzzy Discrete Multi-criteria Cost Optimization of Steel Structures.

5.1 Cost of a Steel Structure.

5.2 Cost of a Steel Structure and the Primary Contributing Factors.

5.3 Fuzzy Discrete Multi-criteria Cost Optimization.

5.4 Membership Functions.

5.5 Fuzzy Membership Functions for Criteria with Unequal Importance.

5.6 Pareto Optimality.

5.7 Selection of Commercially Available Discrete Shapes.

5.8 Implementation and Parametric Study.

5.9 Application to High-rise Steel Structures.

5.10 Concluding Comments.

6 Parallel Computing.

6.1 Multiprocessor Computing Environment.

6.2 Parallel Processing Implementation Environment.

6.3 Performance Optimization of Parallel Programs.

7 Parallel Fuzzy Genetic Algorithm for Cost Optimization of Large Steel Structures.

7.1 Genetic Algorithm and Parallel Processing.

7.2 Cost Optimization of Moment-Resisting Steel Space Structures.

7.3 Data Parallel Fuzzy Genetic Algorithm for Optimization of Steel Structures Using OpenMP.

7.4 Distributed Parallel Fuzzy Genetic Algorithm for Optimization of Steel Structures Using MPI.

7.5 Bi-level Parallel Fuzzy GA for Optimization of Steel Structures Using OpenMP and MPI.

7.6 Application to High-rise Building Steel Structures.

7.7 Parallel Processing Performance Evaluation.

7.8 Concluding Comments.

8. Life Cycle Cost Optimization of Steel Structures.

8.1 Introduction.

8.2 Life Cycle Cost of a Steel Structure and the Primary Contributing Factors.

8.3 Formulation of Total Life Cycle Cost.

8.4 Fuzzy Discrete Multi-criteria Life Cycle Cost Optimization.

8.5 Application to a High-rise Building Steel Structure.

Appendix A.

Cross-sectional areas, perimeter, and costs in US dollars for different W-shapes used for axially loaded members.

Appendix B.

Cross-sectional areas, perimeter, and costs in US dollars for different W-shapes used for laterally loaded members.

References.

Index.

Cost Optimization of Structures Fuzzy Logic

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    A Hardback by Hojjat Adeli, Kamal C Sarma

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      View other formats and editions of Cost Optimization of Structures Fuzzy Logic by Hojjat Adeli

      Publisher: John Wiley & Sons Inc
      Publication Date: 25/08/2006
      ISBN13: 9780470867334, 978-0470867334
      ISBN10: 0470867337
      Also in:
      Civil engineering, surveying and building

      Description

      Book Synopsis
      While the weight of a structure constitutes a significant part of the cost, a minimum weight design is not necessarily the minimum cost design. Little attention in structural optimization has been paid to the cost optimization problem, particularly of realistic three-dimensional structures.

      Table of Contents
      Preface.

      Acknowledgments.

      About the Authors.

      Introduction.

      1.1 The Case for Cost Optimization.

      1.2 Cost Optimization of Concrete Structures.

      1.3 Cost Optimization of Steel Structures.

      2 Evolutionary Computing and Genetic Algorithm.

      2.1 Overview and Basic Operations.

      2.2 Coding and Decoding.

      2.3 Basic Operations in Genetic Algorithm.

      2.4 GA with Penalty Function Method.

      2.5 Augmented LaGrange Method.

      2.6 GA with Augmented Lagrangian Method.

      3 Cost Optimization of Composite Floors.

      3.1 Introduction.

      3.2 Minimum Cost Design of Composite Beams.

      3.3 Solution by Floating-Point Genetic Algorithm.

      3.4 Solution by Neural Dynamics Method.

      3.5 Counter Propagation Neural (CPN) Network.

      For Function Approximation.

      3.6Examples.

      4 Fuzzy Genetic Algorithm for Optimization of Steel Structures.

      4.1 Introduction.

      4.2 Fuzzy Set Theory and Structural Optimization.

      4.3 Minimum Weight Design of Axially Loaded Space Structures.

      4.4 Fuzzy Membership Functions.

      4.5 Fuzzy Augmented Lagrangian Genetic Algorithm.

      4.6 Implementation and Examples.

      4.7 Conclusion.

      5 Fuzzy Discrete Multi-criteria Cost Optimization of Steel Structures.

      5.1 Cost of a Steel Structure.

      5.2 Cost of a Steel Structure and the Primary Contributing Factors.

      5.3 Fuzzy Discrete Multi-criteria Cost Optimization.

      5.4 Membership Functions.

      5.5 Fuzzy Membership Functions for Criteria with Unequal Importance.

      5.6 Pareto Optimality.

      5.7 Selection of Commercially Available Discrete Shapes.

      5.8 Implementation and Parametric Study.

      5.9 Application to High-rise Steel Structures.

      5.10 Concluding Comments.

      6 Parallel Computing.

      6.1 Multiprocessor Computing Environment.

      6.2 Parallel Processing Implementation Environment.

      6.3 Performance Optimization of Parallel Programs.

      7 Parallel Fuzzy Genetic Algorithm for Cost Optimization of Large Steel Structures.

      7.1 Genetic Algorithm and Parallel Processing.

      7.2 Cost Optimization of Moment-Resisting Steel Space Structures.

      7.3 Data Parallel Fuzzy Genetic Algorithm for Optimization of Steel Structures Using OpenMP.

      7.4 Distributed Parallel Fuzzy Genetic Algorithm for Optimization of Steel Structures Using MPI.

      7.5 Bi-level Parallel Fuzzy GA for Optimization of Steel Structures Using OpenMP and MPI.

      7.6 Application to High-rise Building Steel Structures.

      7.7 Parallel Processing Performance Evaluation.

      7.8 Concluding Comments.

      8. Life Cycle Cost Optimization of Steel Structures.

      8.1 Introduction.

      8.2 Life Cycle Cost of a Steel Structure and the Primary Contributing Factors.

      8.3 Formulation of Total Life Cycle Cost.

      8.4 Fuzzy Discrete Multi-criteria Life Cycle Cost Optimization.

      8.5 Application to a High-rise Building Steel Structure.

      Appendix A.

      Cross-sectional areas, perimeter, and costs in US dollars for different W-shapes used for axially loaded members.

      Appendix B.

      Cross-sectional areas, perimeter, and costs in US dollars for different W-shapes used for laterally loaded members.

      References.

      Index.

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