Infrastructure Engineering - Research Publications

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    Evaluation of the International 3D Geospatial Data Models and IFC Standard for Implementing an LADM-based 3D Digital Cadastre
    Atazadeh, B ; Olfat, H ; Rajabifard, A ; Saeidian, B (International Federation of Surveyors (FIG), 2022)
    Land Administration Domain Model (LADM) is an international standard for defining both semantic and spatial information connected with rights, restrictions, and responsibilities (RRRs) that affect land, water, built assets, natural resources, underground spaces, and airspaces. Since LADM is currently a conceptual land administration model, one of the main goals for the new version of this standard is to develop technical encodings. These technical encodings would be useful for adopting the LADM in different applications related to land administration. Therefore, the conceptual schema of LADM standard can be implemented in different and varying ways depending on the implementation requirements. The aim of this paper is to evaluate current standards used widely in the domains of geospatial information systems (GIS) and building information modelling (BIM) in terms of their capabilities to serve as an LADM-based technical encoding for 3D digital cadastre implementation. Some of these standards are CityGML, Industry Foundation Classes (IFC), IndoorGML, and LandInfra/InfraGML. There should be a specific use case for each implementation model or technical encoding. For example, a BIM-based implementation of the LADM standard can be useful for 3D digital lodgement of cadastral data when dealing with individual building and property subdivisions. LADM data encoded within a BIM model would be useful during planning, certification, and registration of a new complex subdivision, especially within built environments. In addition, LanInfra/InfraGML can provide another encoding option for 3D digital land registration. More specifically, LanfInfra/InfraGML supports surveying elements which are not well supported in IFC, CityGML and IndoorGML standards. Another option is CityGML technical encoding that can be effective for producing 3D digital property maps for an entire jurisdiction. Current property maps only depict 2D land parcels and ignore spatial and ownership dimensions of vertically placed assets, such as apartments, tunnels, subterranean retail malls, car parks, and utility networks. Developing a CityGML encoding for LADM would be considered a significant milestone towards realising 3D property maps that can provide a fully-integrated representation of underground and aboveground RRRs. Finally, IndoorGML is also another technical encoding which may not an appropriate option for 3D digital cadastre, but it can enable the use of LADM data for lawful indoor navigation. The main contribution of this study is to identify the possible technical encodings for the LADM standard and how various spatial and semantic entities within each encoding can be used to model the equivalent concepts defined in the LADM standard. This would provide guidelines for implementing the conceptual model of LADM using a specific 3D geospatial or BIM standard.
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    Integration of cadastral survey data into building information models
    Atazadeh, B ; Mirkalaei, LH ; Olfat, H ; Rajabifard, A ; Shojaei, D (TAYLOR & FRANCIS LTD, 2021-07-03)
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    A Proposal for Streamlining 3D Digital Cadastral Data Lifecycle
    Olfat, H ; Atazadeh, B ; Badiee, F ; Chen, Y ; Shojaei, D ; Rajabifard, A (MDPI, 2021-06)
    In urban areas, managing the lifecycle of land and property data related to interlocked and intertwined structures and infrastructure services is a grand challenge for cadastral systems. Addressing the physical and legal complexities of vertically stratified ownership arrangements is a major step towards the modernization of cadastral systems. The research problem that this study addresses is the lack of a simplified and effective approach for modelling, storing, visualizing, and querying 3D cadastral data for multi-story buildings. This research primarily leads to the development of an approach based on Building Information Modelling (BIM), as well as state-of-the-art ETL (extract, transform, load), database and visualization technologies for 3D cadastral data lifecycle management in current practices. The proposed steps for recording, preserving, and disseminating 3D cadastral data are crucial in shifting current 2D cadastral systems towards 3D digital information systems. The results showed improvements in data creation, storage, conversion, and communication when upgrading from a 2D to 3D digital cadastre. Therefore, this study confirmed that streamlining the lifecycle of cadastral data using 3D environments would mitigate issues associated with the current fragmented 2D cadastral datasets used in the multi-story developments.
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    Linking Land Administration Domain Model and BIM environment for 3D digital cadastre in multi-storey buildings
    Atazadeh, B ; Olfat, H ; Rajabifard, A ; Kalantari, M ; Shojaei, D ; Marjani, AM (Elsevier BV, 2021-05-01)
    3D digital cadastral systems intend to provide a fully-integrated 3D view of legal boundaries and rights, restrictions and responsibilities (RRR) in multi-storey properties, which is aligned with the physical reality. Our cognitive understanding of legal boundaries and RRR information is more communicable when we link it to our visual perception of the real world. However, there is a knowledge gap in logical relationships between legal and physical views as most of the existing approaches that integrate 3D legal and physical dimensions have been mainly proposed on a conceptual level. The main argument of this study is that the multi-dimensional nature of BIM provides the ability to extend this environment with concepts defined in Land Administration Domain Model (LADM) for the purpose of 3D digital cadastre in buildings. Therefore, this study investigated how an open BIM-based data model, known as Industry Foundation Classes (IFC), can be extended with LADM data elements to support integration of legal and physical views. This will create a linkage between LADM and BIM environment, which would subsequently provide a better cognitive understanding of legal spaces.
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    Design and development of an LADM-driven 3D Land administration system: Lessons learned in Malaysia
    Rajabifard, A ; Atazadeh, B ; Kalantari, M ; Olfat, H ; Shojaei, D ; Badiee, F (ELSEVIER SCI LTD, 2021-03)
    Urban infrastructure has been dramatically increasing in Malaysian cities over the last decades. The current 2D-based practices are challenged by the stratified development of urban land in underground and aboveground areas. Currently, in Malaysia, surveying measurements are stored in a 2D-based cadastral database in the form of horizontal coordinates. However, this method is not capable to accommodate ownership complexities in the vertical dimension. The existing methods to capture, compute and adjust cadastral survey data need to be upgraded for the purpose of implementing a 3D land administration system (LAS) in Malaysia. The transformation from 2D to 3D LAS should be in accordance with a standard-based approach. Land Administration Domain Model (LADM): ISO 19152:2012 provides an internationally accepted standard model for recording and managing cadastral data. This study aims to design and develop an LADM-driven 3D LAS for Malaysia by building on existing research carried out for LADM adoption in this country. The proposed approach includes modifications in the existing workflows for capturing 3D survey data, new architecture to support 3D land parcels, and a new database for creating an LADM-based 3D LAS in line with data requirements in Malaysia. The major part of the upgrade from 2D to a 3D environment consists of capturing, processing and management of height of survey points that define parcel boundaries. This study demonstrated and confirmed that the LADM standard plays a significant role in realising a 3D-enabled system for Malaysian land administration.
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    Moving Towards a Single Smart Cadastral Platform in Victoria, Australia
    Olfat, H ; Atazadeh, B ; Rajabifard, A ; Mesbah, A ; Badiee, F ; Chen, Y ; Shojaei, D ; Briffa, M (MDPI AG, 2020-05-01)
    Various jurisdictions are currently in the process of reforming their cadastral systems to achieve a smart and multidimensional system that provides a range of land administration services to the wider community. The state of Victoria in Australia has been actively modernizing its cadastral system since the 1990s by developing a digital cadastre database, an online digital cadastral plan lodgment portal named SPEAR, and smart cadastre services for validating and visualizing digital data in the ePlan (LandXML) format. However, due to challenges in the implementation of the smart cadastre lifecycle in Victoria, the uptake of ePlan is currently low across the surveying industry. This study aims to explore the feasibility of implementing a smart platform for managing ePlan lodgments in Victoria, which provides all required services within an integrated digital environment. To achieve this aim, the business and technical requirements for realizing a single smart cadastral platform are first explored. A proof of concept (PoC) is then developed to showcase a suitable approach for developing this platform. The evaluation of the PoC confirmed that integration of smart cadastre services into a single environment could significantly streamline the digital cadastral data management processes in Victoria