Virtual prototyping technologies enhanced construction planning

With the development of building information modeling (BIM) tools over the last 20 years in the construction industry, greater use has been made of multi-dimensional models throughout the entire construction cycle. Whilst most BIM applications have focused on either four-dimensional (4D) or five-dimensional (5D) technology, the Construction Virtual Prototyping Laboratory in The Hong Kong Polytechnic University incorporates all possible dimensional technologies in an integrative computer-based platform known as Construction Virtual Prototyping (CVP). This platform, which supports the design and construction of buildings in a virtual environment, was customized from the DELMIA solution produced by Dassault Systemes for simulating manufacturing processes. The aim of this study was to develop an integrated framework and process for applying CVP to help project teams to improve the constructability of the design, the feasibility of construction methods, and the accuracy of construction scheduling. The primary research methodology adopted in this study was action research, which is an iterative inquiry process that consists of planning before the action, applying the action, and reviewing after the action. This study undertook the following three-cycle iterative process: (1) development of an integrated framework for applying CVP, (2) application of the framework to a real construction project using model simulation, and (3) reviewing the framework based on responses from a number of project participants. The definitive framework that evolved from the iterative process is the study's main contribution to the body of knowledge. It provides a hand-on guide to incorporate the VP technologies into existing construction project delivery processes. It enables contractors to experiment with various construction methods in a virtual environment before deciding on the best method for a particular project. The study found that the integrated framework based on CVP technology improves collaboration efficiency between main contractor and sub-contractors by approximately 30 percent, with a concomitant 30 to 50 percent reduction in meeting time. It was also found that the most important benefits of CVP in the construction planning stage are improved accuracy of process planning and shortened planning time, whilst during the construction implementation stage the benefits are facilitation of fieldwork instruction and reduction of rework.