Uncertainties and risks are always associated with large real world projects and may  obstacle and threaten projects in some ways. Failure in accurately identifying the project  risks increases the total cost and may cause social and environmental damages as  well as casualties during project execution. The aim of this study is to develop a  mathematical programming model for selecting risk response strategies for construction  projects. All risk response strategies for the analysed project have been identified and a  mathematical model is presented based on project iron triangle; time, cost and quality to  obtain the optimal risk response strategy for the construction project. Uncertainties and risks are the inherent characteristics of the real world construction  projects. The project risk management deals with identifying and controlling the risks  before they occur. Various risks happen in project execution phase which may reduce  the performance efficiency and even cause the project failure. Therefore, the  application of project risk management is essential in order to achieve optimal performance  in construction projects. Risk identification is the first step of risk management process  where the potential risks are identified. It is a crucial process to guarantee the  project success and meet the project time, cost, quality and safety. Appropriate  strategies should be performed for responding to risks, when the project risks are identified  and analyzed. One of the first places to start identifying risks is the project itself. Some of the planning  processes can help you with the risk identification task. The project constraints, task list, and critical success factors can uncover risks regarding the project itself. Risk management identifies potential project obstacles early in the process and develops plans and strategies to reduce or avoid their impacts. Responding to the risks is one of the vital steps of the most proposed models by different scholars over the past decades. Some models included some simple steps and some others consisted of more sophisticated details. In recent years, various methods have been used to evaluate the project risks and different studies conducted on the area of risk  management in more detail. Analysis checklists, SWOT approach, Delphi technique and multi-criteria decision-making techniques such as AHP are some examples of the techniques used in this field. Also, the  Fuzzy Inference, Decision Support Systems and Expert Systems were proposed as newer methods. Recent studies remarkably show that the application of Fuzzy Logic in risk management has become a popular topic among scholars due to its compatibility with the nature of uncertainty and risks. The effects of risks can be evaluated by two main parameters: the probability of risk occurrence and the severity of risk. The severity of risk  depends on many factors regarding human resource, workplace, materials, and equipment which cannot be easily quantified based on the traditional methods.  With regards to the case study, analyse the various risk response strategies which an  organisation may adopt?

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ISBN:9781337406659
Author:WINSTON, Wayne L.
Publisher:WINSTON, Wayne L.
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Uncertainties and risks are always associated with large real world projects and may 
obstacle and threaten projects in some ways. Failure in accurately identifying the project 
risks increases the total cost and may cause social and environmental damages as 
well as casualties during project execution. The aim of this study is to develop a 
mathematical programming model for selecting risk response strategies for construction 
projects. All risk response strategies for the analysed project have been identified and a 
mathematical model is presented based on project iron triangle; time, cost and quality to 
obtain the optimal risk response strategy for the construction project.
Uncertainties and risks are the inherent characteristics of the real world construction 
projects. The project risk management deals with identifying and controlling the risks 
before they occur. Various risks happen in project execution phase which may reduce 
the performance efficiency and even cause the project failure. Therefore, the 
application of project risk management is essential in order to achieve optimal performance 
in construction projects. Risk identification is the first step of risk management process 
where the potential risks are identified. It is a crucial process to guarantee the 
project success and meet the project time, cost, quality and safety. Appropriate 
strategies should be performed for responding to risks, when the project risks are identified 
and analyzed. One of the first places to start identifying risks is the project itself. Some of the planning 
processes can help you with the risk identification task. The project constraints, task list, and critical success factors can uncover risks regarding the project itself. Risk management identifies potential project obstacles early in the process and develops plans and strategies to reduce or avoid their impacts. Responding to the risks is one of the vital steps of the most proposed models by different scholars over the past decades. Some models included some simple steps and some others consisted of more sophisticated details. In recent years, various methods have been used to evaluate the project risks and different studies conducted on the area of risk 
management in more detail. Analysis checklists, SWOT approach, Delphi technique and multi-criteria decision-making techniques such as AHP are some examples of the techniques used in this field. Also, the 
Fuzzy Inference, Decision Support Systems and Expert Systems were proposed as newer methods. Recent studies remarkably show that the application of Fuzzy Logic in risk management has become a popular topic among scholars due to its compatibility with the nature of uncertainty and risks. The effects of risks can be evaluated by two main parameters: the probability of risk occurrence and the severity of risk. The severity of risk 
depends on many factors regarding human resource, workplace, materials, and equipment which cannot be easily quantified based on the traditional methods. 

With regards to the case study, analyse the various risk response strategies which an 
organisation may adopt?

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