Name: Progressive Decision-Making Tools and Applications in Project and Operation Management
ISBN: 978-3-031-51719-8

Overview

Editors:

Mohammad Yazdi⁰

Mohammad Yazdi
1. Faculty of Science and Engineering, Macquarie University, Sydney, Australia
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Presents practical and unique approaches to improve project and operation management effectively and practically
Identifies the requirements for using the best and most advanced decision-making
Interests professionals in different sectors, including oil and gas, marine and offshore, and renewable energies

Part of the book series: Studies in Systems, Decision and Control (SSDC, volume 518)

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About this book

In today's complex operational environments, leveraging advanced decision-making tools becomes imperative, particularly in uncertain scenarios. This book deepens the nuances of employing state-of-the-art decision-making methodologies within various industrial sectors for optimal project and operations management. The essence of integrating these advanced tools is to equip professionals with pivotal insights for cost-effective management and to strategize against potential operational shortcomings. Furthermore, the methodologies elucidated provide a robust foundation for crafting informed, risk-centric strategies that uphold the integrity of operations across diverse application domains. Readers will discover a rich tapestry of methodologies tailored for engineers and analysts. Deeply rooted in mathematical modeling, these approaches are complemented by human judgment and participation. Fundamental attributes of these methods include the evaluation of alternatives, benchmarking againstcriteria, assigning scores based on varying requirements, and assigning weights to denote the significance of individual criteria vis-à-vis others. The book embarks on a structured journey, commencing with a comprehensive review of evolving decision-making methodologies in project and operations management, enriched by metadata analysis. Subsequent chapters are meticulously organized, each spotlighting a distinct approach. Topics span foundational concepts in decision-making, the nuances of performance metrics in the digital age, and the implications of emerging technologies on operations management. Targeted towards professionals and researchers immersed in project and operations management, this work will also immensely benefit postgraduate and undergraduate students in related fields. Moreover, its relevance extends to professionals across diverse sectors, from oil and gas, marine and offshore, and renewable energies to chemical complexes, manufacturing, and healthcare systems.

Keywords

Table of contents (16 chapters)

Front Matter

Pages i-xii

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Cutting Edge Research Topics on Operations and Project Management of Supportive Decision-Making Tools
- Li Yang, Nankai Cheng, Rosita Moradi, Mohammad Yazdi
Pages 1-19
Decision-Making in Project and Operations Management
- Reza Esmaeili, Mahnaz Shakerian, Mohammad Yazdi
Pages 21-37
Nash Equilibrium-Based FMEA for Risk Prioritization in Hydrogen Refueling Station Design
- He Li, Rosita Moradi, Mohammad Yazdi, Esmaeil Zarei
Pages 39-52
Practice and Enlightenment of General Quality Characteristic Management of Us Military Equipment
- Dewei Li, Qingjun Meng, Shuaichao Guo, Jian Zhou
Pages 53-67
Bi-Objective Portfolio Optimization with Mean-CVaR Model: An Ideal and Anti-Ideal Compromise Programming Approach
- AmirMohammad Larni-Fooeik, Hossein Ghanbari, Mostafa Shabani, Emran Mohammadi
Pages 69-79
Developing Alternative Multilinear Regression-Based Intelligence Hybrid Model
- Kehinde Adewale Adesina, Mohammad Yazdi
Pages 81-107
Empowering Emergency Operations Management: A Pride Day
- Nankai Cheng, Li Yang, Rosita Moradi, Mohammad Yazdi
Pages 109-120
Enhancing Hydrogen Risk Management: A Modified EDAS-Based FMEA Approach
- Hamidreza Seiti, Amir Mohammad Larni-Fooeik, Ali Elkamel
Pages 121-133
Multi-Criteria Decision-Making for Optimal Selection of Hydrogen Fuel Cell Types: Evaluating Sustainability and Performance Criteria
- Hamidreza Seiti, Amir Mohammad Larni-Fooeik, Ali Elkamel
Pages 135-146
Enhancing Supplier Selection Reliability: Integrated Variable Returns to Scale-Robust Parameter R Approach
- Kehinde Adewale Adesina, Mohammad Yazdi
Pages 147-165
Operation Management of Sky Magic: Consolidating Perspective of Risk and Safety
- Tuong Quyen Vu, Rosita Moradi, Mohammad Yazdi
Pages 167-172
Research on Reliability Design Analysis Application to Gas Turbines
- Meiyu Yang, Wei Wang, Yihao Zhang, Jitao Cai, Wenwen Liu
Pages 173-189
Prioritization of HSE Management Risks in the Management of Construction Projects (Non-Mechanized Tunnel) by Monte Carlo Modeling Method
- Adel Gholami, Mahdi Mozaffari, Reza Ghasemi pirbalouti
Pages 191-219
Enhancing Crowd Safety Resilience Through Systematic Analysis
- Mohammad Yazdi, Esmaeil Zarei
Pages 221-240
Decision-Making During Crisis in Megaprojects
- Rehab Iftikhar
Pages 241-251
Harnessing AI for Project Risk Management: A Paradigm Shift
- He Li, Mohammad Yazdi, Arman Nedjati, Rosita Moradi, Sidum Adumene, Uyen Dao et al.
Pages 253-272

Editors and Affiliations

Faculty of Science and Engineering, Macquarie University, Sydney, Australia

Mohammad Yazdi

About the editor

Mohammad Yazdi's illustrious academic and professional journey began with his BSc in Safety and Technical Protection Engineering from the Petroleum University of Technology in Abadan, Iran, conferred in 2012. He further elevated his educational prowess by obtaining an MSc degree in Industrial Engineering from the Eastern Mediterranean University in Famagusta, Cyprus, in 2017. Immediately after, Mohammad integrated his expertise into academia by affiliating with the Centre for Marine Technology and Ocean Engineering (CENTEC) at the University of Lisbon in Portugal. He made significant contributions both in-person during 2017 and 2018 and remotely in 2019. His relentless pursuit of knowledge led him to undertake a dual Ph.D. program in 2022, partnering with the Centre for Risk, Integrity, and Safety Engineering (C-RISE) at the Memorial University of Newfoundland, Canada, and Macquarie University in Australia. Before venturing into these academic achievements, Mohammad dedicated himself to practical applications in the industrial world from 2012 to 2016. He took on multifaceted roles such as a Firefighter, Safety Officer, WHS/OHS Advisor, and Auditor, serving vital sectors including power plants, and the oil and gas industry. His research interests and professional background converge at the nexus of system safety, risk assessment, resilience, process integrity, and asset management, especially concerning renewable and non-renewable energy infrastructure. With an impressive track record of leading large-scale energy projects and technology-rich initiatives, Mohammad offers invaluable support to asset operators, developers, and maintainers.

Passionately, he endeavors to bridge the gap between industry and academia, crafting innovative solutions that foster advanced decision-making, systems thinking, and creativity. Mohammad champions an asset lifecycle approach from capital investment planning, spanning through operation, maintenance, and culminating in disposal. This holistic perspective allows him to integrate pragmatic thinking, balancing superior business outcomes with optimum functionality and reliability.

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Bibliographic Information

Book Title: Progressive Decision-Making Tools and Applications in Project and Operation Management
Book Subtitle: Approaches, Case Studies, Multi-criteria Decision-Making, Multi-objective Decision-Making, Decision under Uncertainty
Editors: Mohammad Yazdi
Series Title: Studies in Systems, Decision and Control
DOI: https://doi.org/10.1007/978-3-031-51719-8
Publisher: Springer Cham
eBook Packages: Intelligent Technologies and Robotics, Intelligent Technologies and Robotics (R0)
Copyright Information: The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2024
Hardcover ISBN: 978-3-031-51718-1Published: 08 March 2024
Softcover ISBN: 978-3-031-51721-1Due: 08 April 2024
eBook ISBN: 978-3-031-51719-8Published: 07 March 2024
Series ISSN: 2198-4182
Series E-ISSN: 2198-4190
Edition Number: 1
Number of Pages: XII, 272
Number of Illustrations: 9 b/w illustrations, 52 illustrations in colour
Topics: Control and Systems Theory, Computational Intelligence, Engineering Design

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Progressive Decision-Making Tools and Applications in Project and Operation Management