![]() ![]() One challenge with design automation is system transparency with adjustable granularity because of the many different forms of representation from multiple disciplines. The suggested approach provides the basis for next generation infrastructure design and will significantly contribute to a more efficient, cost-saving and high quality planning of infrastructure projects in the future. ![]() As a VPL is used, we establish an Abstraction Layer Concept (ALC) for hierarchical structuring of HLPs and CMs. ![]() The use of a VPL carries certain advantages, such as improved dependency tracking and decision transparency for the user. We present a Visual Programming Language (VPL) approach which implements La Rocca's High Level Primitives (HLP) and Capability Modules (CM) for the geometric-semantic modelling of the building product model. Using open data formats like the Industry Foundation Classes (IFC), downstream applications could be accessed via standardized interfaces and thus easily used for simulation purposes. In particular, the integration of the KBE system within the BIM-based planning process is considered. For this reason, the knowledge base and rule engine are implemented in a KBE control centre, which runs separatly from the modelling and simulation modules. To this end, a system architecture is presented which ensures the independence of knowledge representation and product modelling. In this paper, we present a novel Knowledge-based Engineering approach for the preliminary design of infrastructure constructions. ![]()
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