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国际铁路项目风险管理(英文版)
作者:宇德明
出版社:中南大学出版社有限责任公司
出版时间:2021-05-01
ISBN:9787548743354
定价:¥68.00
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内容简介
本书介绍国际铁路项目风险管理的基本概念、原理、方法和应用案例,由十三章组成,包括:导论,风险管理原则、框架和流程, 法律体系、合同和法律风险,项目风险形成机理, 风险识别技术, 敏感性分析、贝叶斯分析与决策树分析,预先危险性分析、影响图技术和Z-矩阵,事件树分析与故障树分析,蒙特卡洛模拟,系统动力学,项目风险预警,工程保险与工程担保和变更、索赔和争端。主要特点:本书编写坚持理论联系实际的原则,在重点阐述国际铁路项目风险管理相关概念、原理、机理和方法的同时,尽可能介绍铁路工程项目风险管理的相关案例,且每章配有相应的练习与思考题,以便读者更好掌握国际铁路项目风险管理的理论知识和实践。该书可以作为项目管理、工程管理、工程造价、土木工程规划与管理、土木工程等专业工程项目风险管理本科生、研究生课程教材或教学参考书,对工程公司、工程咨询公司的管理人员和工程师亦有重要参考价值。
作者简介
暂缺《国际铁路项目风险管理(英文版)》作者简介
目录
Contents
Chapter 1 Introduction 1
1.1 Drivers, concepts and characteristics of international projects 1
1.2 Concepts and key features of construction megaprojects 3
1.3 International project delivery systems 6
1.4 Global railway construction markets 14
1.5 Introduction of risk management 16
1.6 Channel Tunnel Rail Link risk transfer and innovation in project delivery 28
Exercises and Discussions 39
Chapter 2 Risk Management Principles, Frameworks and Processes 40
2.1 Introduction 40
2.2 Risk management principles 40
2.3 Risk management conceptual frameworks 44
2.4 Risk management process 48
Exercises and Discussions 57
Chapter 3 Legal Systems, Contracts, and Legal Risks 58
3.1 Introduction 58
3.2 Governing law system 58
3.3 Different types of legal systems 59
3.4 Differences between common law system and civil law system 60
3.5 International engineering and construction contracts 68
3.6 Legal risks in international railway projects 75
Exercises and Discussions 80
Chapter 4 Project Risk Formation Mechanisms 82
4.1 Construction accident formation mechanisms 82
4.2 PPP/BOT transportation project failure mechanisms 90
4.3 International railway project loss mechanisms 111
4.4 International railway project loss case 112
Exercises and Discussions 115
Chapter 5 Risk Identification Techniques 116
5.1 Introduction 116
5.2 Assumptions and constraints analysis 117
5.3 Scenario analysis 117
5.4 Flow diagram 119
5.5 SWOT Analysis 120
5.6 Cause and effect diagrams 125
5.7 Checklists 126
Exercises and Discussions 131
Chapter 6 Sensitivity Analysis, Bayesian Analysis and Decision Tree Analysis 132
6.1 Sensitivity analysis 132
6.2 Bayesian analysis 135
6.3 Decision tree analysis 138
Exercises and Discussions 142
Chapter 7 Preliminary Hazard Analysis, Influence diagrams technique and Z-Matrix 143
7.1 Preliminary hazard analysis 143
7.2 Influence diagrams 154
7.3 Z-Matrix 160
Exercises and Discussions 162
Chapter 8 Event Tree Analysis and Fault Tree Analysis 163
8.1 Introduction 163
8.2 Event tree analysis 164
8.3 Fault tree analysis 168
Exercises and Discussions 180
Chapter 9 Monte Carlo Simulation 181
9.1 Commonly used probability distributions in engineering 181
9.2 Basics of Monte Carlo simulation 187
9.3 Generation of random numbers 187
9.4 CDF-inverse method(continuous case)188
9.5 Acceptance-rejection method 189
9.6 Generation random variates from probability distributions 189
9.7 Variance-reduction techniques 191
9.8 Monte Carlo simulation case 192
Exercises and Discussions 202
Chapter 10System dynamics 203
10.1 Historical overview of the system dynamics approach203
10.2 Causal loop diagrams and stock and flow diagrams204
10.3 Procedures for using the system dynamics method206
10.4 Application case of system dynamics208
Exercises and Discussions 215
Chapter 11Project Risk Early Earning 216
11.1 Introduction 216
11.2 Earned-value-management-based project schedule and cost early warning 218
11.3 Earned-schedule-based project schedule early warning 220
11.4 Dynamic-control threshold-based project schedule early warning 222
Exercises and Discussions 226
Chapter 12 Construction Insurance and Surety Bonds 227
12.1 Introduction 227
12.2 Insurance for international railway engineering projects 227
12.3 Surety bonds for international railway engineering projects 237
Exercises and Discussions 248
Chapter 13 Variations, Claims and Disputes 249
13.1 Introduction 249
13.2 Variations in construction 249
13.3 Claims in construction 254
13.4 Disputes in construction 258
Exercises and Discussions 266
References 267
Chapter 1 Introduction 1
1.1 Drivers, concepts and characteristics of international projects 1
1.2 Concepts and key features of construction megaprojects 3
1.3 International project delivery systems 6
1.4 Global railway construction markets 14
1.5 Introduction of risk management 16
1.6 Channel Tunnel Rail Link risk transfer and innovation in project delivery 28
Exercises and Discussions 39
Chapter 2 Risk Management Principles, Frameworks and Processes 40
2.1 Introduction 40
2.2 Risk management principles 40
2.3 Risk management conceptual frameworks 44
2.4 Risk management process 48
Exercises and Discussions 57
Chapter 3 Legal Systems, Contracts, and Legal Risks 58
3.1 Introduction 58
3.2 Governing law system 58
3.3 Different types of legal systems 59
3.4 Differences between common law system and civil law system 60
3.5 International engineering and construction contracts 68
3.6 Legal risks in international railway projects 75
Exercises and Discussions 80
Chapter 4 Project Risk Formation Mechanisms 82
4.1 Construction accident formation mechanisms 82
4.2 PPP/BOT transportation project failure mechanisms 90
4.3 International railway project loss mechanisms 111
4.4 International railway project loss case 112
Exercises and Discussions 115
Chapter 5 Risk Identification Techniques 116
5.1 Introduction 116
5.2 Assumptions and constraints analysis 117
5.3 Scenario analysis 117
5.4 Flow diagram 119
5.5 SWOT Analysis 120
5.6 Cause and effect diagrams 125
5.7 Checklists 126
Exercises and Discussions 131
Chapter 6 Sensitivity Analysis, Bayesian Analysis and Decision Tree Analysis 132
6.1 Sensitivity analysis 132
6.2 Bayesian analysis 135
6.3 Decision tree analysis 138
Exercises and Discussions 142
Chapter 7 Preliminary Hazard Analysis, Influence diagrams technique and Z-Matrix 143
7.1 Preliminary hazard analysis 143
7.2 Influence diagrams 154
7.3 Z-Matrix 160
Exercises and Discussions 162
Chapter 8 Event Tree Analysis and Fault Tree Analysis 163
8.1 Introduction 163
8.2 Event tree analysis 164
8.3 Fault tree analysis 168
Exercises and Discussions 180
Chapter 9 Monte Carlo Simulation 181
9.1 Commonly used probability distributions in engineering 181
9.2 Basics of Monte Carlo simulation 187
9.3 Generation of random numbers 187
9.4 CDF-inverse method(continuous case)188
9.5 Acceptance-rejection method 189
9.6 Generation random variates from probability distributions 189
9.7 Variance-reduction techniques 191
9.8 Monte Carlo simulation case 192
Exercises and Discussions 202
Chapter 10System dynamics 203
10.1 Historical overview of the system dynamics approach203
10.2 Causal loop diagrams and stock and flow diagrams204
10.3 Procedures for using the system dynamics method206
10.4 Application case of system dynamics208
Exercises and Discussions 215
Chapter 11Project Risk Early Earning 216
11.1 Introduction 216
11.2 Earned-value-management-based project schedule and cost early warning 218
11.3 Earned-schedule-based project schedule early warning 220
11.4 Dynamic-control threshold-based project schedule early warning 222
Exercises and Discussions 226
Chapter 12 Construction Insurance and Surety Bonds 227
12.1 Introduction 227
12.2 Insurance for international railway engineering projects 227
12.3 Surety bonds for international railway engineering projects 237
Exercises and Discussions 248
Chapter 13 Variations, Claims and Disputes 249
13.1 Introduction 249
13.2 Variations in construction 249
13.3 Claims in construction 254
13.4 Disputes in construction 258
Exercises and Discussions 266
References 267
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