"Comprehensive and practical, this book provides an essential resource for educators, researchers, students and those in public agencies and consultancies who are directly responsible for managing municipal infrastructure such as roads, water and sewer pipes, etc. The book is thorough in the integration of procedures that establish a cost-effective intervention plan using the latest technologies and management processes. It examines all the aspects of developing an optimal asset management plan for collocated municipal assets. It presents the evolution of asset management from the data requirements to investment planning and priority programming of rehabilitation and maintenance"--
Comprehensive and practical, this book provides an essential resource for educators, researchers, students and those in public agencies and consultancies who are directly responsible for managing municipal infrastructure such as roads, water and sewer pipes, etc.
Comprehensive and practical, this book provides an essential resource for educators, researchers, students, and those in public agencies and consultancies who are directly responsible for managing municipal infrastructure such as roads, water, and sewer pipes. The book is thorough in the integration of procedures that establish a cost-effective intervention plan using the latest technologies and management processes. It examines all the aspects of developing an optimal asset management plan for collocated municipal assets. It presents the evolution of asset management from data requirements to investment planning and priority programming of rehabilitation and maintenance. It offers a coordinated approach to effectively manage municipal infrastructure and offers integrated solutions that aid decision-makers in taking informed decisions on (1) when to maintain each asset, (2) which corridors shall be prioritized, and (3) what is the best intervention to undertake for each asset. It also offers a compelling vision of how infrastructure and cities will evolve by 2050, shaped by advancements in digital technology, transportation, governance, sustainability, resilience, and climate change. It provides invaluable insights for practitioners,
emphasizing how today’s decisions and investments will directly influence the future of urban environments.
Features:
- Presents the most current methodologies and practical applications of managing collocated municipal infrastructure.
- Includes case studies and practical examples for each step, as well as an extensive list of references for each asset class.
- Examines novel approaches for reduced lifecycle costs, enhanced conditions, improved level of service, reduced risk, increased maintenance effectiveness, and reduced service disruptions.
- Explores the future of urban infrastructure in 2050, helping practitioners to envision tomorrow’s cities and make informed investment decisions in today’s infrastructure.
Table of Contents
Part 1: Evolution of Infrastructure Asset Management
Chapter 1 - Introduction
Chapter 2 - An Overview of Asset Management: Evolution, Strategies, and
Principles
Chapter 3 Municipal Contractual Practices
Part 2: Infrastructure Interdependency, Coordination, and Contractual
Frameworks
Chapter 4 Infrastructure Interdependency
Chapter 5 Coordination Framework for Municipal Infrastructure
Chapter 6 PBC-based Contractual Scheme for Co-Located Assets
Part 3: Key Performance Indicators (KPIs): Measurement and Modeling
Chapter 7 Criteria for KPIs Selection
Chapter 8 Condition and Resilience Preparedness KPIs
Chapter 9 Temporal, Spatial, and Financial KPIs
Chapter 10 Efficiency and Effectiveness KPIs
Chapter 11 Risk KPI
Chapter 12 Multidimensional Performance Assessment Saving Model
Part 4: Optimization Framework for Municipal Infrastructure
Chapter 13 An Overview of Decision-Making and Optimization for Asset
Management
Chapter 14 Optimization Framework and Steps Toward Coordinated Planning of
Municipal Infrastructure
Part 5: Case Studies
Chapter 15 City of Montreal Case Study
Chapter 16 Town of Kindersley Case Study
Part 6: Future of Cities and Infrastructure in 2050
Chapter 17 Vision for 2050: Sustainable Cities and Coordinated
Infrastructure
Chapter 18 Transportation, Sustainability, and Resilience in the
Infrastructure of 2050
Chapter 19 Role of Digital Technology and Asset Management in the
Infrastructure of 2050
Chapter 20 Adapting Infrastructure for Inclusivity, Security, and
Well-Being by 2050
Chapter 21 Governance, Stakeholder Engagement, and Circular Economy
Principles in 2050 Infrastructure
Dr. Abusamra is a distinguished senior leader with over 15 years of experience spearheading innovative initiatives and executing major infrastructure projects. Currently, he serves as the Director of Commercial and Contracts at VIA-HFR, Canada's largest infrastructure undertaking, where he is responsible for overseeing contract management and commercial structuring. His dedication to advancing resilient and sustainable infrastructure reflects his commitment to supporting future generations.
Prior to his role at VIA-HFR, Dr. Abusamra held key positions as a Senior Project Manager and Contract Manager at VIA Rail Canada, managing capital infrastructure and rolling stock projects with a combined value exceeding $1 billion. His global experience includes significant contributions to high-profile transportation projects, such as the Riyadh Metro Project in Saudi Arabiaa design-build rapid transit system featuring 6 lines, 176 kilometers, and 85 stations, with a budget of $22.5 billionand the REM project in Montreal. Dr. Abusamras career also includes a role as a Manager in KPMG's Global Infrastructure Advisory Team, where he supported municipalities and clients in developing strategic and tactical asset management plans.
Academically, Dr. Abusamra earned his Ph.D. in Civil Engineering with a focus on Asset Management from Concordia University. He has authored several books, journal articles, and conference papers on municipal infrastructure asset management. His thought leadership is further demonstrated through speaking engagements at notable conferences, including TED Talks, and other media appearances. He has participated in industry forums such as the IAM and has served as a lecturer at Toronto Metropolitan University. Dr. Abusamra is also an editorial member and reviewer for prestigious journals like ASCE and CSCE. His active involvement extends to CNAM's board of directors and the Building Transformations Asset Management and Lifecycle Think Tank.
Ayman H. El Hakea is an Construction Engineering graduate of the American University in Cairo (AUC), 2007. He has 17 years of experience in various fields of construction. Moreover, he worked with several multi-national companies in Egypt, Morocco, GCC and the UK, such as Bechtel, Groupe Bouygues, Al-Futtaim Carillion and Mace. He is currently taking the role of Systems Development Manager at CRC, the construction arm of Dorra Group, the leading construction and real estate conglomerate in Egypt and the Middle East. He completed his MSc degree in Construction Engineering at the AUC in 2015, and he is currently a Construction and Building Engineering PhD candidate at the Arab Academy for Science, Technology and Maritime Transport (AASTMT) in Cairo, Egypt. He published numerous papers in infrastructure asset management, contracts management, building performance simulation, machine learning, life-cycle cost optimization, and computer vision applications in construction. Mr. El Hakea is a student member of the ASCE (US) and a former graduate member of the ICE (UK). He is also a certified IRCA ISO9001:2015 QMS Lead Auditor.
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