Waheed Uddin,
W. Hudson,
Ralph Haas
McGraw-Hill Education
2e druk, 2013
9780071820110
Public Infrastructure Asset Management, Second Edition
Specificaties
Gebonden, blz.
|
Engels
McGraw-Hill Education |
2e druk, 2013
ISBN13: 9780071820110
Rubricering
Juridisch
:
Levertijd ongeveer 11 werkdagen
Gratis verzonden
Samenvatting
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The Latest Tools and Techniques for Managing Infrastructure Assets
Fully updated throughout, this practical resource provides a proven, cost-effective infrastructureasset management framework that integrates planning, design, construction, maintenance, rehabilitation, and renovation. Public Infrastructure Asset Management,Second Edition, describes the most current methodologies for effectively managing roads, bridges, airports, utility services, water and waste facilities, parks, public buildings, and sports complexes.
This comprehensive guide covers information management and decision support systems, including proprietary solutions and new technological developments such ascloud storage. The book discusses total quality management, economics, life-cycle analysis, and maintenance, rehabilitation, and reconstruction programming. Up-to-date examples and real-world case studies illustrate the practical applications of the concepts presented in this thoroughly revised reference.
This new edition features:Planning, needs assessment, and performance indicatorsDatabase management, data needs, and analysisInventory, historical, and environmental dataIn-service monitoring and evaluation dataPerformance modeling and failure analysisDesign for infrastructure service lifeConstructionMaintenance, rehabilitation, and reconstruction strategies, policies, and treatment alternativesDealing with new or alternate conceptsPrioritization, optimization, and work programsIntegrated infrastructure asset management systemsVisual IMS: an illustrative infrastructure management system and applicationsAvailable asset management system and commercial off-the-shelf providersBenefits of implementing an asset management systemSustainability, environmental stewardship, and asset managementFuture directions for infrastructure asset management
Specificaties
Inhoudsopgave
Foreword <br/> Preface to the Second Edition <br/> Preface to the First Edition <br/> Part 1 The Challenge of Managing Infrastructure <br/> 1 The Big Picture <br/> 1.1 Infrastructure and Society <br/> 1.2 Infrastructure Definition <br/> 1.3 Historical Overview of Infrastructure Development <br/> 1.4 Infrastructure Assets <br/> 1.5 Life-Cycle Analysis in Planning and Design <br/> 1.6 Magnitude of Infrastructure “Crisis” <br/> 1.7 Maintenance, Preservation, and Innovation Challenges <br/> 1.8 Infrastructure Asset Management—An Integrated Approach <br/> 1.9 References <br/> 2 Framework for Infrastructure Asset Management <br/> 2.1 Background <br/> 2.2 Key Issues for Infrastructure Asset Management <br/> 2.3 Application of Systems Methodology <br/> 2.4 Development of an Infrastructure Asset Management System <br/> 2.5 Life-Cycle Analysis Concept <br/> 2.6 References <br/> 3 Planning, Needs Assessment, and Performance Indicators <br/> 3.1 Infrastructure Planning <br/> 3.2 Examples of Planning Studies <br/> 3.3 Life-Cycle Management <br/> 3.4 Infrastructure Service Life <br/> 3.5 Infrastructure Needs Assessment <br/> 3.6 Infrastructure Performance <br/> 3.7 References <br/> Part 2 Information Management and Decision Support Systems <br/> 4 Database Management, Data Needs, Analysis <br/> 4.1 Overview of Information Management <br/> 4.2 Database Development and Management <br/> 4.3 Data Needs <br/> 4.4 Analysis and Modeling Techniques <br/> 4.5 Database Security <br/> 4.6 Data-Quality Control and Quality-Assurance Issues <br/> 4.7 References <br/> 5 Inventory, Historical, and Environmental Data <br/> 5.1 Infrastructure Asset Management Data Needs <br/> 5.2 Network Partitioning and Inventory Data <br/> 5.3 Technologies for Inventory and Historic Data Collection <br/> 5.4 Inventory Data Collection and Processing <br/> 5.5 Institutional Issues <br/> 5.6 Examples of Inventory-Data Systems for Transportation Assets <br/> 5.7 Example of Transportation-Safety Assets <br/> 5.8 Example of Inventory Data for Buildings <br/> 5.9 References <br/> 6 In-Service Monitoring and Evaluation Data <br/> 6.1 In-Service Evaluation Data Needs <br/> 6.2 In-Service Evaluation of Physical Assets <br/> 6.3 Technologies for In-Service Monitoring and Evaluation <br/> 6.4 Inspection, Photographic, and Optical Evaluation <br/> 6.5 Nondestructive and Noncontact Structural Evaluation <br/> 6.6 Combined Evaluation Data <br/> 6.7 Institutional Issues <br/> 6.8 References <br/> 7 Uses of Monitoring Data and Examples of In-Service Evaluation <br/> 7.1 In-Service Evaluation of Road and Airport Pavements <br/> 7.2 In-Service Evaluation of Railroad Tracks <br/> 7.3 In-Service Evaluation of Underground Utilities <br/> 7.4 Evaluation of Bridges <br/> 7.5 Evaluation of Water Pipelines <br/> 7.6 Evaluation of Gas Pipelines <br/> 7.7 Evaluation of Buildings <br/> 7.8 Landuse Evaluation for Heat-Island Effects and Flood Risk Assessment <br/> 7.9 References <br/> 8 Performance Modeling and Failure Analysis <br/> 8.1 Performance Evaluation <br/> 8.2 Performance Modeling <br/> 8.3 Failure Analysis <br/> 8.4 Summary <br/> 8.5 References <br/> Part 3 Concepts of Total Quality Management <br/> 9 Design for Infrastructure Service Life <br/> 9.1 Introduction <br/> 9.2 Design Objectives and Constraints <br/> 9.3 Design Framework and Components <br/> 9.4 Design Effectiveness <br/> 9.5 Value-Engineering Applications in Design <br/> 9.6 Summary <br/> 9.7 References <br/> 10 Construction <br/> 10.1 Introduction <br/> 10.2 Construction as Related to Other Phases of Management <br/> 10.3 Constructability <br/> 10.4 Construction Quality Control and Quality Assurance <br/> 10.5 New Technologies in Construction Management <br/> 10.6 Summary <br/> 10.7 References <br/> 11 Maintenance, Rehabilitation, and Reconstruction Strategies, Including Operations <br/> 11.1 Introduction <br/> 11.2 Definitions <br/> 11.3 Maintainability <br/> 11.4 Trade-Offs among Design Objectives in Relation to Maintenance <br/> 11.5 Rehabilitation <br/> 11.6 Reliability-Centered Maintenance <br/> 11.7 Maintenance Management <br/> 11.8 Operations as a Part of Infrastructure Management <br/> 11.9 References <br/> 12 Dealing with New or Alternate Concepts <br/> 12.1 Introduction <br/> 12.2 Examples of New Material Usage <br/> 12.3 Handling Diminishing Resources <br/> 12.4 Considering New Methods and Materials for Infrastructure Use <br/> 12.5 Dealing with Shrinking Natural-Aggregate Sources <br/> 12.6 Energy-Related Issues <br/> 12.7 Summary <br/> 12.8 References <br/> Part 4 Economics, Life-Cycle Analysis, and M,R&R Programming <br/> 13 Maintenance, Rehabilitation, and Reconstruction Policies and Treatment Alternatives <br/> 13.1 Introduction <br/> 13.2 Maintenance Management Systems <br/> 13.3 Private Contracts for Maintenance <br/> 13.4 Identifying M,R&R Alternative Treatment Policies <br/> 13.5 Example M,R&R Treatment Alternatives for Roads <br/> 13.6 Example M,R&R Alternatives for Water Mains <br/> 13.7 Example M,R&R Alternatives for Sewer Mains <br/> 13.8 Example M,R&R Alternatives for Buildings <br/> 13.9 Evaluating the Effectiveness of M,R&R Alternatives <br/> 13.10 Collection and Reporting of M,R&R Data <br/> 13.11 Recognizing Environmental Stewardship and Sustainability <br/> 13.12 Summary <br/> 13.13 References <br/> 14 Life-Cycle Cost and Benefit Analysis <br/> 14.1 Introduction <br/> 14.2 Basic Principles <br/> 14.3 Cost and Benefit Factors <br/> 14.4 Analysis or Life-Cycle Period <br/> 14.5 Discount Rate, Interest Rate, and Inflation <br/> 14.6 Salvage or Residual Value <br/> 14.7 Methods of Economic Analysis <br/> 14.8 Selecting an Appropriate Economic Analysis Method <br/> 14.9 Effect of Discount Rate <br/> 14.10 Application to Transportation and Built Infrastructure <br/> 14.11 Application to Water and Sewer Mains <br/> 14.12 Application to Buildings and Land-Use Changes <br/> 14.13 Summary <br/> 14.14 References <br/> 15 Prioritization, Optimization, and Work Programs <br/> 15.1 Introduction <br/> 15.2 Framework for Prioritization: From Simple Ranking to Multifactor Optimization <br/> 15.3 Priority Analysis Methods <br/> 15.4 Budgeting and Financial Planning Issues <br/> 15.5 Budget Allocation Issues <br/> 15.6 Financing Models <br/> 15.7 Work Programs <br/> 15.8 Institutional Issues <br/> 15.9 References <br/> Part 5 IAMS Development and Implementation, Examples <br/> 16 Concept of Integrated Infrastructure Asset Management Systems <br/> 16.1 Background <br/> 16.2 Framework of Integrated Systems <br/> 16.3 Common Aspects of Management Systems <br/> 16.4 Common Aspects of PMS and BMS <br/> 16.5 State-Level Management Systems <br/> 16.6 Municipal Infrastructure Asset Management Systems <br/> 16.7 Unitized Facilities Management Systems <br/> 16.8 Implementation and Institutional Issues <br/> 16.9 Outline of a Comprehensive IIAMS <br/> 16.10 Smaller Agency Case Studies <br/> 16.11 Summary <br/> 16.12 References <br/> 17 Visual IMS: An Illustrative Infrastructure Management System and Applications <br/> 17.1 Introduction <br/> 17.2 General Description of Visual IMS <br/> 17.3 Analytical Operation of Visual IMS <br/> 17.4 Visualizing/Mapping Operation of Visual IMS <br/> 17.5 Hardware, Operating System, and Memory <br/> 17.6 User Training <br/> 17.7 Application of Working Infrastructure Management Systems <br/> 17.8 References <br/> 18 Available Asset Management System and Commercial Off-the-Shelf Providers <br/> 18.1 Introduction <br/> 18.2 Review of COTS Asset Management Software <br/> 18.3 References <br/> 19 Benefits of Implementing an AMS <br/> 19.1 Introduction <br/> 19.2 Sources of Concern on Asset Management <br/> 19.3 Costs Related to AMS <br/> 19.4 Benefits Associated with AMS <br/> 19.5 Evaluation Methodologies <br/> 19.6 Summary <br/> 19.7 References <br/> 20 Sustainability, Environmental Stewardship, and Asset Management <br/> 20.1 Introduction <br/> 20.2 Sustainability Related to Climate Change Adaptations <br/> 20.3 Environmental Stewardship <br/> 20.4 Incorporating Sustainability and Environmental Concerns into Asset Management <br/> 20.5 Summary <br/> 20.6 References <br/> 21 Future Directions for Infrastructure Asset Management <br/> 21.1 Introduction <br/> 21.2 Advances in Technology to Assist the AMS Process <br/> 21.3 Improvements in AMS Resulting from Its Continued Use <br/> 21.4 Advances Made Possible by the Broader Use of AMS <br/> 21.5 Better Education, Implementation, and Adaptation of AMS <br/> 21.6 Improvement in Technologies <br/> 21.7 Summary <br/> Acronyms <br/> Index
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