Minimizing Risk and Uncertainties in Construction Projects

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Contents

Overview

The difficulty of managing the individual flows in the construction process is mostly due to unpredictable conditions, scheduling pressures and the large amount parts involved. This approach analyses how uncertainties and risk are created and how they can be managed by the means of Building Information Modelling and Lean Construction principles.

One of the concepts that more effectiveness has demonstrated in the management of construction projects is the concept of Lean. The idea of Lean is to eliminate what does not add value from the perspective of the customer. In this analysis, the implications and consequences that the use of BIM has in Lean Construction are assessed.

In addition, it is essential to improve the projects management by identifying the risks, planning responses and coordinating the information flow and the resources. In order to give the widest range of solutions to this, other important concepts are evaluated, such as the TFV-model (transformation, flow and value), the last planner system and the location-based scheduling; concepts that are connected and used to mitigate the possible damage inflicted by unexpected situations.

Risks and uncertainties management with Lean thinking

Risk and uncertainty

From early phases, the overall project should be defined: scheduling, planning, cost, time and resources. But there is other information, a level of uncertainty, which needs to be recorded. Uncertainty can be defined as the difference between the information required to make a decision and the information available. There are two concepts attached to this[1]:

  • Predictability, since the future is not known, and the past can be an invaluable guide.
  • Complexity, since it is costly in terms of time, money and other resources.

Risk is the probability of the occurrence of a risk event given its risk source. To define risk, two definitions should be considered:

  • Risk source, as an underlying state of affairs
  • Risk event, as something given due to the underlying state of affairs

When the needs of the owner and occupants of a building are not met, a risk event can be created from the design phase. In addition, modifying these need during the project, or having a weak communication between the parts, can create the risk event.

In risk situations, there are parameters controlled by probability, known by the decision maker[2]. However, in uncertainty situations, parameters are uncertain and no information about probabilities is known. It is clear that construction management organizations do not have precise information, especially when making long-term planning. But it is possible to determine some parameters from experience or statistical data.

The uniqueness of a construction project leads to a high degree of uncertainty. Therefore, project managers must lean on risk management to identify, analyse, monitor and report risks. The project risk management uses four basic concepts to help identify the type of risk:

Figure 1: Overview of known unknows concept
  • Known-knowns: the risks have been identified and a probability can be assigned.
  • Known-unknowns: the risks have been identified but a probability cannot be assigned to them.
  • Unknown-knowns: the risks are the ones identified by someone who associates probability to them, but decides to hide that information.
  • Unknown-unknowns: the risks have not been identified.

This being said, the purpose of risk management is to help eliminate the unknown-unknowns and decrease uncertainty by having all risks known-knowns. This way, the complexity will be minimized and also the predictability, to some extent.

Lean Construction

Lean Construction can be defined as the adaptation of the principles of Lean Production to fit the needs of a construction project. The value is set by the client, and this value consists in the needs, wishes and demands. In order to maximize the values, it is necessary to deliver a product that fulfils the customer expectations at the proper time and quality. Lean Construction is able to achieve this by reducing the waste, this means, to eliminate all that is not relevant for the client’s values. Reducing waste is reducing waste of time, waste in not delivering what the customer wanted, waste in overproduction, etc.[3] But to fulfill this waste reduction, the industry of construction has been developing different ideas or processes, continuously trying to find the best solution.

Methods for minimizing risks and uncertainties in construction projects

Transformation, flow and value

The TFV-model illustrates the different outlooks in project management. In order to discuss the parts of the TFV-model, it is necessary to differentiate the effectiveness, which is to do the right thing, and efficiency, which is to do it right.

This model consists of three concepts:

- Transformation: when the workers are told to do something, but not how to do it. This focuses on effectiveness, leading to low efficiency. - Flow: the waste between processes is eliminated. It is important to know what to do, before knowing how to do it properly. - Value: there is a focus on creating value for the client. Here is when the project management should be used.

Last planner system

In order to facilitate the TFV-model, the LPS was developed for construction purposes. When managing a construction project traditionally there is a tendency to start the work, even if not all the resources required for the completion of the task are available. The Last Planner System addresses this problem with a break down structure of the schedule.

The method consists in dividing the construction process into three levels: phase, look-ahead and weekly work plan. This is done to provide an even workflow which enables the prediction of durability of the activities.

Firstly, a phase schedule is created, containing the overall construction project with the corresponding deadlines. Then, each representative is required to create a look-ahead schedule to clarify how the activities in the phase schedule should be done. Finally, weekly work plans are created during weekly meetings with the representatives, in which agreements are done about what to do on that week.

The LPS produces predictable workflow and rapid learning [4]. This creates the maximum value to the owner by eliminating waste caused by unpredictable workflow. It enables contractors to reduce the delivery time of the project and creates commitments among project participants.

But even with the situation where the schedule makes the weekly work plans superfluous, there is another aspect to consider when the foremen are doing the planning on site: the weekly meetings are also oriented to commitment and trust among the parties[5]. This is achieved by letting the workers do the planning and adjust their own management to the overall project (Simonsen, 2015). This way, an open and easy way to communicate is created.

Bibliography

  1. Graham M. Winch - Managing Construction, 2010
  2. Uncertainty analysis in construction project’s appraisal phase, Ustinovičius, D. Migilinskas, J. Tamošaitienė, E.K. Zavadskas, n.d.
  3. Jakob Lemming, Lecture 3: "Lean Construction" from 42286 Planning and Management in Construction, 2015
  4. Recommended practices for the application of Lean Construction methods to building new australian LNG capacity, Engineers Australia, Western Australia Division, 2012
  5. Building Information Modelling (BIM) in Design Detailing with focus on Interior Wall Systems, Janni Tjell, 2010
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