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Feng, K (2020) Environmentally friendly construction processes under uncertainty assessment, optimisation and robust decision-making, Unpublished PhD Thesis, , Luleå University of Technology.

Järvenpää, A-T (2022) How to promote innovation from an organizational control perspective a case study of a public infrastructure client, Unpublished PhD Thesis, , Luleå University of Technology.

Jassim, H S H (2019) Assessing energy use and carbon emissions to support planning of environmentally sustainable earthmoving operations, Unpublished PhD Thesis, , Luleå University of Technology.

Jongeling, R (2006) A process model for work-flow management in construction, Unpublished PhD Thesis, , Luleå University of Technology.

Jonsson, J (1996) Construction site productivity measurements selection, application and evaluation of methods and measures, Unpublished PhD Thesis, , Luleå University of Technology.

Laurell-Stenlund, K (2010) Value creation in development and construction of public buildings: The case of houses of culture, Unpublished PhD Thesis, , Luleå University of Technology.

Lundkvist, R (2015) Experience feedback in industrialised house-building: The impact of production strategies, Unpublished PhD Thesis, , Luleå University of Technology.

Lundman, P (2011) Cost management for underground infrastructure projects a case study on cost increase and its causes, Unpublished PhD Thesis, , Luleå University of Technology.

Meiling, J (2010) Continuous improvement and experience feedback in off-site construction timber-framed module prefabrication, Unpublished PhD Thesis, , Luleå University of Technology.

Osipova, E (2013) On enhancing joint risk management throughout a project's lifecycle: Empirical studies of Swedish construction projects, Unpublished PhD Thesis, , Luleå University of Technology.

Rwamamara, R A (2007) Planning the healthy construction workplace through risk assessment and design methods, Unpublished PhD Thesis, , Luleå University of Technology.

Schade, J (2013) A design process perspective on the energy performance of buildings, Unpublished PhD Thesis, , Luleå University of Technology.

Simu, K (2009) The construction site manager's impact on risk management performance, Unpublished PhD Thesis, , Luleå University of Technology.

Sterner, E (2002) Green procurement of buildings: Estimation of environmental impact and life-cycle cost, Unpublished PhD Thesis, , Luleå University of Technology.

Toolanen, B (2008) Lean contracting relational contracting influenced by lean thinking, Unpublished PhD Thesis, , Luleå University of Technology.

Vennström, A (2008) The construction client as a change agent contextual support and obstacles, Unpublished PhD Thesis, , Luleå University of Technology.

Wernicke, B (2020) Diversity of flow in production improvements in house building, Unpublished PhD Thesis, , Luleå University of Technology.

Woksepp, S (2007) Virtual reality in construction tools, methods and processes, Unpublished PhD Thesis, , Luleå University of Technology.

• Type: Thesis
• Keywords: construction sector; efficiency; virtual reality; construction project; specifications; communication; concurrent engineering; information and communication technology; information system; manufacturing; partnership; project organization; virtual prototyp
• ISBN/ISSN:
• URL: http://urn.kb.se/resolve?urn=urn:nbn:se:ltu:diva-26708
• Abstract:
  Present-day construction projects are characterized by short-term partnerships between multidisciplinary teams with varying levels of process maturity and information handling capability. They involve the planning, design and erection of structures of all types. Compared with other industries, the construction sector has relatively poor profit margins and low efficiency levels. The product development process in construction is still structured as a sequential chain of activities in which each activity is separated in time and space and where design information is communicated using traditional documents, such as 2D drawings and written specifications. This process is slow and error prone and reflects the functional orientation of the construction project. However, lessons learned from the manufacturing industry have shown that new design processes using modern information and communication technology (ICT), tools such as concurrent engineering and virtual reality (VR) can increase efficiency and reduce lead times. So far, VR has been used sporadically in the construction industry, often from the perspective of visualizing the product design for the client. The objective of my research has been to investigate how VR (and thereby 3D) can be used during the planning, design and realization phase of a construction project with the emphasis on complex building products. What are the main benefits and how should the construction project be organized in order to make use of the potential benefits the technology offers? The main hypothesis during my research has been that the use of digital prototypes visualized using VR technology makes it easier to identify, analyze, coordinate and communicate the product design in order to improve the decision-making and thereby the final product. The research work is based on the theoretical framework of virtual prototyping and communication models of information systems, in combination with quantitative and qualitative investigations of two large case studies of construction projects in which VR has been used in the different phases of a project. The main result of the research work contributes to theory and industrial practice in the following way: * Knowledge of the way VR models are appreciated by professionals in the construction industry in their everyday work* Guidelines for and examples of the way VR can be utilized in complex building projects during planning, design and realization to be beneficial to the project * A newly developed model for evaluating the benefits and cost to the construction project associated with the introduction of new ICT tools (such as VR). It is my conclusion that the sensible, well-planned use of modern ICT tools, such as VR, can contribute substantially to increasing the efficiency of the design and planning processes and thus contribute to the quality of the product and the financial result of the project. However, the introduction of a new ICT tool must be supported by methods, suitable processes and project organizations that can make full use of the benefits the tool is able to offer.