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CONSTRUCTION RISK MANAGEMENT DECISION MAKING
Explores the relevance of systems thinking and behavioral science in construction risk management
Effective risk management is a vital component of all successful construction projects. Although quantitative tools for evaluating data and minimizing risk are readily available, construction managers commonly adopt a more innate, experience-based approach. In Construction Risk Management Decision Making, project manager and senior consultant Alex C. Arthur provides step-by-step advice on assessing and prioritizing risk using qualitative decision-making systems in the construction industry.
Incorporating key theories and concepts from systems thinking and behavioral science, this highly practical guide focuses on the behavior patterns of real people in the industry, rather than complex quantitative techniques and data. Concise, easy-to-understand chapters highlight the current practices of construction risk management while helping readers view risk and decision making from a broader perspective. Throughout the book, the author presents invaluable insights into the ways construction professionals think and behave in the real world.
Addresses the actual risk management practices of construction professionals
Applies human behavioral theories to the study of construction risk management decision making
Illustrates the highly intuitive approaches prevalent in various construction projects
Features real-life case studies and practical examples throughout
Construction Risk Management Decision Making is an excellent textbook for advanced students in project management, engineering, construction, and surveying courses, and a must-have guide for practitioners of construction management, surveying, and architecture.
Autorentext
Dr Alex C. Arthur BSc MSc PhD FRICS MAPM is a chartered project management surveyor with more than 14 years' experience working in multi-disciplinary practices. He is a Fellow of the Royal Institution of Chartered Surveyors (RICS) and an examiner of their Assessment of Professional Competency (APC) programme. He is also a member of the Association of Project Managers. Dr Arthur is a certified professional teacher and post-doctoral researcher who possesses extensive research and industrial expertise within the UK and other international construction industries. He has published a number of articles, journals and contributions to books on systems thinking and analysis, intuitive decision making, intuitive construction risk management systems, construction risk management decision making systems, partnering procurement, development control and planning systems.
Klappentext
Explores the relevance of systems thinking and behavioral science in construction risk management
Effective risk management is a vital component of all successful construction projects. Although quantitative tools for evaluating data and minimizing risk are readily available, construction managers commonly adopt a more innate, experience-based approach. In Construction Risk Management Decision Making, project manager and senior consultant Alex C. Arthur provides step-by-step advice on assessing and prioritizing risk using qualitative decision-making systems in the construction industry. Incorporating key theories and concepts from systems thinking and behavioral science, this highly practical guide focuses on the behavior patterns of real people in the industry, rather than complex quantitative techniques and data. Concise, easy-to-understand chapters highlight the current practices of construction risk management while helping readers view risk and decision making from a broader perspective. Throughout the book, the author presents invaluable insights into the ways construction professionals think and behave in the real world.
Zusammenfassung
CONSTRUCTION RISK MANAGEMENT DECISION MAKING Explores the relevance of systems thinking and behavioral science in construction risk management Effective risk management is a vital component of all successful construction projects. Although quantitative tools for evaluating data and minimizing risk are readily available, construction managers commonly adopt a more innate, experience-based approach. In Construction Risk Management Decision Making, project manager and senior consultant Alex C. Arthur provides step-by-step advice on assessing and prioritizing risk using qualitative decision-making systems in the construction industry. Incorporating key theories and concepts from systems thinking and behavioral science, this highly practical guide focuses on the behavior patterns of real people in the industry, rather than complex quantitative techniques and data. Concise, easy-to-understand chapters highlight the current practices of construction risk management while helping readers view risk and decision making from a broader perspective. Throughout the book, the author presents invaluable insights into the ways construction professionals think and behave in the real world.
Inhalt
Title Page
Preface
Dedication
Acknowledgement
Table of Content
Chapter 1: Introduction A risk management approach to construction project delivery
1.1 Risk perception categorisation
1.1.1 Differences in personality traits
1.1.2 Prospect theory
1.1.3 Differences between external stakeholders and project team members
1.1.4 Cultural theory
1.2 Construction risk data presentation formats
Part 1: Concepts
Chapter 2: Systems Analysis of the construction industry and project delivery
2.1 Introduction
2.2 The construction industry
2.3 The construction industry system
2.3.1 Open and closed systems
2.3.2 Construction system objective
2.3.3 Construction system's components and decomposition
2.4 Construction delivery system
2.5 Construction project management system; differentiation and risk
2.5.1 Systems differentiation
2.5.1.1 Evolution of specialist construction disciplines
2.5.1.2 Isolated training programmes for the different specialist disciplines
2.5.1.3 Project team members from different organisations and internal subgroups
2.5.1.4 Differences in personal objectives of project team members
2.5.1.5 Environmental changes
2.5.2 The link between differentiation and risk
2.5.2.1 Consolidated differentiated specialist groupings
2.5.2.2 Failure to integrate objectives of additional differentiated specialist roles
2.5.2.3 Sudden and prolonged environmental changes
2.6 Construction system's environment and risk
2.6.1 Political functional subsystem
2.6.2 Economic functional subsystem
2.…