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2001, ISBN: 041524417X
ID: 14097189049
[EAN: 9780415244176], Neubuch, [PU: CRC Press], Technology|Construction, Technology|Construction|General, Technology|Engineering|Civil, Brand New, Unread Copy in Perfect Condition. A+ Customer Service! Summary: Preface. Acknowledgment. About the Authors. Introduction. Overview of Neural Networks in Civil Engineering. 2. 1 Introduction 2. 2 Construction Engineering 2. 2. 1 Construction Scheduling and Management. 2. 2. 2 Construction Cost Estimation. 2. 2. 3 Resource Allocation and Scheduling. 2. 2. 4 Construction Litigation. 2. 2. 5 Other Applications of BP and Other Neural Network Models in Construction Engineering and Management. 2. 3 Structural Engineering. 2. 3. 1 Pattern Recognition and Machine Learning in Structural Analysis and Design. 2. 3. 2 Design Automation and Optimization. 2. 3. 3 Structural System Identification. 2. 3. 4 Structural Condition Assessment and Monitoring. 2. 3. 5 Structural Control. 2. 3. 6 Finite Element Mesh Generation. 2. 3. 7 Structural Material Characterization and Modeling. 2. 3. 8 Parallel Neural Network Algorithms for Large-Scale Problems. 2. 4 Environmental and Water Resources Engineering. 2. 5 Traffic Engineering. 2. 6 Highway Engineering. 2. 7 Geotechnical Engineering. 2. 8 Shortcomings of the BP Algorithm and Other Recent Approaches. 2. 8. 1 Shortcomings of the BP Algorithm. 2. 8. 2 Adaptive Conjugate Gradient Neural Network Algorithm. 2. 8. 3 Radial Basis Function Neural Networks. 2. 8. 4 Other Approaches. 2. 9 Integrating Neural Network With Other Computing Paradigms. 2. 9. 1 Genetic Algorithms. 2. 9. 2 Fuzzy Logic. 2. 9. 3 Wavelets. Neural Dynamics Model and its Application to Engineering Design Optimization. 3. 1 Introduction. 3. 2 Design Optimization. 3. 3 Minimum Weight Design of Cold-Formed Steel Beams. 3. 3. 1 Bending Strength Constraint. 3. 3. 2 Shear Strength Constraint. 3. 3. 3 Constraint on Combined Bending and Shear Strength. 3. 3. 4 Constraint on Web Crippling Strength. 3. 3. 5 Constraint on Combined Web Crippling and Bending Strength. 3. 3. 6 Deflection Constraint. 3. 3. 7 Constraint on Flange Curling. 3. 3. 8 Local Buckling Constraints. 3. 4 Neural Dynamics Optimization Model. 3. 5 Neural Dynamics Model for Optimization of Cold-Formed Steel Beams. 3. 6 Application of the Model. 3. 6. 1 Example 1. Example 2. Example 3. 3. 7 Global Optimum Design Curves for Hat-Shape Beams. 3. 7. 1 Parametric Studies and Search for Global Optima. 3. 7. 2 Design Curves for Hat-Shapes. 3. 8 Concluding Remarks. Project Planning and Management and CPM. 4. 1 Introduction. 4. 2 What is a Project? 4. 2. 1 Definition. 4. 2. 2 Life Cycle. 4. 2. 3 Participants. 4. 2. 4 Attributes of a Project. 4. 2. 5 States of a Project. 4. 2. 6 Project Time and Cost. 4. 3 Project Planning and Management. 4. 3. 1 Introduction. 4. 3. 2 Component Models. 4. 4 Elements of Project Scheduling. 4. 4. 1 Tasks. 4. 4. 2 Work Breakdown Structure 4. 4. 3 Scheduling Constraints. 4. 5 Graphical Display of Schedules. 4. 5. 1 The Need. 4. 5. 2 Gantt Charts. 4. 5. 3 Network Diagrams. 4. 5. 4 Linear Planning Chart. The Critical Path Method. 4. 6. 1 Introduction. 4. 6. 2 Features. 4. 6. 3 Parameter in the CPM Analysis. 4. 6. 4 Algorithm. 4. 6. 5 Example. A General Mathematical Formulation for Project Scheduling and Cost Optimization. 5. 1 Introduction. 5. 2 Cost-Duration Relationship of a Project. 5. 3 Formulation of the Scheduling Optimization Problem. 5. 3. 1 Breakdown the Work into Tasks, Crews, and Segments. 5. 3. 2 Specify the Internal Logic of Repetitive Tasks. 5. 3. 3 Specify the External Logic of Repetitive and Non-Repetitive Tasks. 5. 4 Conclusion. Neural Dynamics Cost Optimization Model for Construction Projects. 6. 1 Introduction. 6. 2 Formulation of the Neural Dynamics Construction Cost Optimization Model. 6. 3 Topological Characteristics. 6. 4 Illustrative Example. 6. 4. 1 General Description. 6. 4. 2 Cost-Duration Relationship. 6. 4. 3 Scheduling Logic. 6. 4. 4 Solution of the Problem. 6. 5 Conclusion. Object-Oriented Information Model for Construction Project Management. 7. 1 Introduction. 7. 2 Change Order Management. 7. 3 Owner''s Role in Construction
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2001, ISBN: 041524417X
ID: 14096486223
[EAN: 9780415244176], [PU: CRC Press], Technology|Construction, Technology|Construction|General, Technology|Engineering|Civil, This Book is in Good Condition. Clean Copy With Light Amount of Wear. 100% Guaranteed. Summary: Preface. Acknowledgment. About the Authors. Introduction. Overview of Neural Networks in Civil Engineering. 2. 1 Introduction 2. 2 Construction Engineering 2. 2. 1 Construction Scheduling and Management. 2. 2. 2 Construction Cost Estimation. 2. 2. 3 Resource Allocation and Scheduling. 2. 2. 4 Construction Litigation. 2. 2. 5 Other Applications of BP and Other Neural Network Models in Construction Engineering and Management. 2. 3 Structural Engineering. 2. 3. 1 Pattern Recognition and Machine Learning in Structural Analysis and Design. 2. 3. 2 Design Automation and Optimization. 2. 3. 3 Structural System Identification. 2. 3. 4 Structural Condition Assessment and Monitoring. 2. 3. 5 Structural Control. 2. 3. 6 Finite Element Mesh Generation. 2. 3. 7 Structural Material Characterization and Modeling. 2. 3. 8 Parallel Neural Network Algorithms for Large-Scale Problems. 2. 4 Environmental and Water Resources Engineering. 2. 5 Traffic Engineering. 2. 6 Highway Engineering. 2. 7 Geotechnical Engineering. 2. 8 Shortcomings of the BP Algorithm and Other Recent Approaches. 2. 8. 1 Shortcomings of the BP Algorithm. 2. 8. 2 Adaptive Conjugate Gradient Neural Network Algorithm. 2. 8. 3 Radial Basis Function Neural Networks. 2. 8. 4 Other Approaches. 2. 9 Integrating Neural Network With Other Computing Paradigms. 2. 9. 1 Genetic Algorithms. 2. 9. 2 Fuzzy Logic. 2. 9. 3 Wavelets. Neural Dynamics Model and its Application to Engineering Design Optimization. 3. 1 Introduction. 3. 2 Design Optimization. 3. 3 Minimum Weight Design of Cold-Formed Steel Beams. 3. 3. 1 Bending Strength Constraint. 3. 3. 2 Shear Strength Constraint. 3. 3. 3 Constraint on Combined Bending and Shear Strength. 3. 3. 4 Constraint on Web Crippling Strength. 3. 3. 5 Constraint on Combined Web Crippling and Bending Strength. 3. 3. 6 Deflection Constraint. 3. 3. 7 Constraint on Flange Curling. 3. 3. 8 Local Buckling Constraints. 3. 4 Neural Dynamics Optimization Model. 3. 5 Neural Dynamics Model for Optimization of Cold-Formed Steel Beams. 3. 6 Application of the Model. 3. 6. 1 Example 1. Example 2. Example 3. 3. 7 Global Optimum Design Curves for Hat-Shape Beams. 3. 7. 1 Parametric Studies and Search for Global Optima. 3. 7. 2 Design Curves for Hat-Shapes. 3. 8 Concluding Remarks. Project Planning and Management and CPM. 4. 1 Introduction. 4. 2 What is a Project? 4. 2. 1 Definition. 4. 2. 2 Life Cycle. 4. 2. 3 Participants. 4. 2. 4 Attributes of a Project. 4. 2. 5 States of a Project. 4. 2. 6 Project Time and Cost. 4. 3 Project Planning and Management. 4. 3. 1 Introduction. 4. 3. 2 Component Models. 4. 4 Elements of Project Scheduling. 4. 4. 1 Tasks. 4. 4. 2 Work Breakdown Structure 4. 4. 3 Scheduling Constraints. 4. 5 Graphical Display of Schedules. 4. 5. 1 The Need. 4. 5. 2 Gantt Charts. 4. 5. 3 Network Diagrams. 4. 5. 4 Linear Planning Chart. The Critical Path Method. 4. 6. 1 Introduction. 4. 6. 2 Features. 4. 6. 3 Parameter in the CPM Analysis. 4. 6. 4 Algorithm. 4. 6. 5 Example. A General Mathematical Formulation for Project Scheduling and Cost Optimization. 5. 1 Introduction. 5. 2 Cost-Duration Relationship of a Project. 5. 3 Formulation of the Scheduling Optimization Problem. 5. 3. 1 Breakdown the Work into Tasks, Crews, and Segments. 5. 3. 2 Specify the Internal Logic of Repetitive Tasks. 5. 3. 3 Specify the External Logic of Repetitive and Non-Repetitive Tasks. 5. 4 Conclusion. Neural Dynamics Cost Optimization Model for Construction Projects. 6. 1 Introduction. 6. 2 Formulation of the Neural Dynamics Construction Cost Optimization Model. 6. 3 Topological Characteristics. 6. 4 Illustrative Example. 6. 4. 1 General Description. 6. 4. 2 Cost-Duration Relationship. 6. 4. 3 Scheduling Logic. 6. 4. 4 Solution of the Problem. 6. 5 Conclusion. Object-Oriented Information Model for Construction Project Management. 7. 1 Introduction. 7. 2 Change Order Management. 7. 3 Owner''s
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ISBN: 9780415244176
Construction Scheduling, Cost Optimization and Management presents a general mathematical formula for the scheduling of construction projects. Using this formula, repetitive and non-repetitive tasks, work continuity considerations, multiple-crew strategies, and the effects of varying job conditions on the performance of a crew can be modelled.L This book presents an entirely new approach to the construction scheduling problem. It provides a practical methodology which will be of great benefit to all those involved in construction scheduling and cost optimization, including construction engineers, highway engineers, transportation engineers, contractors and architects. It will also be useful for researchers, and graduates on courses in construction scheduling and planning. Textbooks New Books ~~ Architecture~~ Methods & Materials Construction-SchedulingCost-Optimization-and-Management~~Hojjat-Adeli CRC Press Presents a general mathematical formula for the scheduling of construction projects. Using this formula, repetitive and non-repetitive tasks, work continuity considerations, multiple-crew strategies, and the effects of varying job conditions on the performance of a crew can be modeled. It provides a practical methodology which will be of great benefit to all those involved in construction scheduling and cost optimization.
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ISBN: 9780415244176
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1. Review of Construction Scheduling and Management Methods. 2. Neural Dynamics Model of Adeli and Park and its Application to Engineering Design. 3. A General Mathematical Formulation for Scheduling of Construction Projects with Construction Cost Optimization. 4. Solution of Construction Scheduling and Cost Optimization with Neural Dynamics. 5. An Object-Oriented Information Model for Construction Project Management. 6. CONSCOM: An Object-Orient Construction Scheduling and Change Management System. 7. Integrated Management Environment and User Interface. 8. Regularization Neural Network for Construction Cost Estimation. References. Appendix Nomenclature. Technology Technology eBook, CRC Press
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Title: | Construction Scheduling, Cost Optimization and Management |
ISBN: | 9780415244176 |
Details of the book - Construction Scheduling, Cost Optimization and Management
EAN (ISBN-13): 9780415244176
ISBN (ISBN-10): 041524417X
Hardcover
Publishing year: 2001
Publisher: ROUTLEDGE CHAPMAN & HALL
352 Pages
Weight: 0,712 kg
Language: eng/Englisch
Book in our database since 12.12.2007 23:05:18
Book found last time on 11.12.2016 20:18:49
ISBN/EAN: 9780415244176
ISBN - alternate spelling:
0-415-24417-X, 978-0-415-24417-6
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