Abstract
ABSTRACTThe use of prefabricated façades provides a timely means to increase efficiency in the delivery of buildings, while maximising the expected environmental service performance. In order to achieve high performance and low cost, these products require manufacturability and supply chain knowledge to be integrated earlier than usual in the design process. Knowledge-Based Engineering (KBE) applications can potentially fulfil this need by providing a digital Product Model that informs designers about manufacturability aspects and expected performance. This paper explores the currently available digital tools, as well as KBE and its applicability in façade design. It is first demonstrated that there is a fundamental gap in state-of-the-art digital tools: rather than integrating design principles and manufacturing constraints, existing and emerging tools continue to focus on single disciplines with no consideration for the actual manufacturing stage. The applicability of KBE is then evaluated by reviewing the current use of this approach in the building and other industries, namely, aerospace and shipbuilding. It is found that, although KBE is rarely used in façade design, there are significant opportunities for it to be applied in this sector, due to the similarity in terms of design tasks and priorities with the two other industries reviewed in this paper.
Highlights
BackgroundThe AEC (Architecture, Engineering and Construction) sector is experiencing an unprecedented increase in complexity motivated by continuously evolving construction standards, ambitious architectural aspirations and international competition requiring a reduction in delivery times
Nodes and links are given as an input and a specific algorithm places the nodes in space so that the system is in an equilibrium state corresponding to the minimum elastic energy in the links, forming clusters of nodes with similar characteristics, that is, similar links
The façade and shipbuilding industries develop ETO products, while the aerospace industry is characterised by MTO/ATO products
Summary
The AEC (Architecture, Engineering and Construction) sector is experiencing an unprecedented increase in complexity motivated by continuously evolving construction standards, ambitious architectural aspirations and international competition requiring a reduction in delivery times. In this sense, the façade plays a key role as it has a significant impact on the functional, economic and aesthetic aspects of the overall building. The final design solution is developed through increased levels of complexity and detail During this process, specific tools are used to support façade design tasks. General-purpose tools (e.g. ABAQUS, Comsol, and Autocad) have been omitted for this classification
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