Johannes Dimyadi scite author profile

The main challenges in automating the regulatory compliance checking of building engineering designs are the availability of computable representations of the building and the regulatory knowledge, as well as a system that can process and manage these representations effectively. The emergence of Building Information Modelling (BIM) and Industry Foundation Classes (IFC) at the start of the millennium has sparked useful research in the area of sharing building information effectively, but challenges remain with producing a practical and manageable regulatory knowledge representation that can be processed effectively by a compliance checking system.Research is being conducted to develop a two-part regulatory knowledge representation, which can be maintained independently by designers and regulators. One part is a set of compliant design procedures modelled as Business Process Diagrams (BPD) using an open standard Business Process Model and Notation (BPMN), and the other is the associated regulatory constraints and rules encoded in a computable format suitable for execution with the BPMN.This paper reports on a set of guidelines developed for the purposes of encoding regulatory knowledge into the proposed computable representation. A verification method (C/VM2) prescribed by the New Zealand Building Code (NZBC) for the performance-based design of buildings related to fire safety has been selected as a case study to illustrate the encoding process. These guidelines are adaptable for encoding the entire NZBC.

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Simplified schema queries for supporting BIM-based rule-checking applications

Solihin¹,

Dimyadi

Lee

et al. 2020

Automation in Construction

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Sharing Building Information using the IFC Data Model for FDS Fire Simulation

Dimyadi¹,

Spearpoint²,

Amor³

2008

Fire Saf. Sci.

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This paper describes part of a research project that looks into the potential and challenge of using the Industry Foundation Classes (IFC) open standard building information model in fire engineering design. In particular the paper describes work undertaken to share building geometry and other information with the Fire Dynamics Simulator (FDS) fire simulation model. A commercially available building information modeling (BIM) authoring application has been used to create building geometries and export IFC data files. A web-based conversion tool has been created to generate FDS input data given the output from a dedicated fire engineering IFC parser tool. The capabilities and outcome of data sharing process is illustrated in this paper using a simple test case building.

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