Visualisation of impact of time on the internal lighting of a building
Khosrowshahi, Farzad and Alani, Amir (2010) Visualisation of impact of time on the internal lighting of a building. Automation in Construction, 20 (2). pp. 145-154. ISSN 0926-5805 (doi:10.1016/j.autcon.2010.09.012)Full text not available from this repository.
With the increasing realisation of the importance of information and elicitation of knowledge, the need for improved methods of extraction and abstraction of information and knowledge has gained equal attention. To this end, visualisation methods have been viewed an effective way of abstracting information. Over the past three decades, these methods have undergone a rapid revolutionary progress, supported by sophisticated visualisation tools, analytical and simulation methodologies and techniques. During this period, the visualisation of an object, such as a building, 'in time' – viewing it from different perspectives – has gained significant attention and developments have been underpinned by sophisticated software technology. However, visualisation of a building 'through time' – viewing it as it degrades through aging – has received limited attention. Indeed, the ability to visualise the behaviour of a building, through time, has the potential to yield significant advantages: at the design phase, the informed choice of different building materials enables the architect to meet the client's technical, aesthetic and economical objectives. Extending the same capabilities to the maintenance phase can result in the development of just-in-time schedules which can prevent wastages without compromising the service to the users of the building. With advances in the BIM technology and the promised paradigm shift in the manner stakeholders collaborate and interact, the ability to simulate and visualise the time-based behaviour of building elements can assist decisions relating to both design and scheduling. In this paper, the overall model of the visual building design and maintenance is proposed and its practicality is demonstrated through its application to the building lighting system. The overall process is modelled and generalised and the lighting system is introduced as an example where the research work can be applied: the time related behaviour of different light sources under the impact of intrinsic and environmental factors is modelled and expressed in a mathematical form which facilitates visualisation through the use of Visual User Interface.
|Uncontrolled Keywords:||visualisation, visual User Interface, VRML, lighting system, time related|
|Subjects:||T Technology > TH Building construction|
|School / Department / Research Groups:||School of Engineering
Faculty of Engineering & Science > School of Engineering
School of Engineering > Department of Civil Engineering
Faculty of Engineering & Science > School of Engineering > Department of Civil Engineering
|Last Modified:||19 Aug 2013 09:46|
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