Abstract
The benefits of Building Information Modelling (BIM) accrue from the needs of the interoperability of applied technologies. This scope is strongly related to heritage buildings. Protection plans encompassing phases of heritage conservation, interpretation, intervention and dissemination could lead to a sustainable model through a TeamWork-HBIM project. This work develops a step by step semantically enriched 3D model, from accurate data acquisition to the creation of a container of artistic assets. TeamWork-HBIM acts as a database for movable assets, i.e., parametric objects (GDL) with graphical and semantic information, which are valid for recording, inventory and cataloguing processes. Thus, heritage properties were created and used to create recording and inventory sheets related to movable assets. Consequently, a parametric object was edited in the HBIM project, so a new category called “Heritage Furniture” was available. Data from the monitoring of the artistic asset were included in that category. In addition, the specialist technicians from the TeamWork-HBIM team catalogued a dataset related to artistic, historical and conservation properties. Another advantage of the system was the reliability of the structure of the HBIM project, which was based on the actual geometry of the building provided by the point clouds. The information was valid for both modelling works and specialists in virtual monitoring. Moreover, the reliability of metadata was collected in a common data environment (CDE), which was available for everyone. As a result, the Teamwork-HBIM-CDE project meets the needs of private institutions, such as the Foundation of the Church of the Company of Jesus in Quito, related to the sustainability of the historic site. This sustainability is shown by the implementation of a methodology that strengthens the interdisciplinary information flow by including all disciplines of historical heritage.
Highlights
Sustainability constitutes a main approach in any area of our society
The massive data capture (MDC) of the point cloud was obtained with a Terrestrial Scanning Laser (TLS) to contribute to the accuracy and similarity of the morphological characteristics of the object
This document justifies the theory of generating an heritage building information modelling (HBIM) model in a digital platform that is sustainable for cultural heritage
Summary
Sustainability constitutes a main approach in any area of our society. Today, this aspect is being studied in works on heritage architecture. The benefits of the Building Information Modelling (BIM) digital platform accrue from the needs of the interoperability of applied technologies [1], and this scope is strongly related to heritage buildings. Sustainable restoration projects have been created and included in the heritage building information modelling (HBIM) paradigm. HBIM is a tool that manages both a great deal of information from graphic modelling and information provided by agents and operators related to restoration. There are studies on sustainable qualification tools for heritage buildings that indicate the factors and indicators that allow sustainability to be analysed [2]
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