DEVELOPMENT OF 3D WEB GIS APPLICATION WITH OPEN SOURCE LIBRARY

Today, thanks to the internet connection, the borders are disappearing and accessing information is more comfortable. Instead of desktop applications, number of web-based applications which can be seen instant changes by all users are increasing day by day. The diversity of web-based applications that are currently used in presenting spatial information to users is also spreading. Using open source libraries, developers can develop web applications for their own purposes. Three dimensional (3D) visualization on web is a commonly used approach in geographic information systems (GIS) applications. In this article, it is aimed to develop a 3D web application using open source library. Vector data layers containing attribute data on global, country and city levels are visualized on web application. The raster data layers produced in the most suitable site selection and mapping of land valuation process results are also visualized on the web application in three dimensional. It is pointed that the output products obtained from different studies can be accessed and visualized through the web browser without installing an additional program or add-ons on the users' computers

Unveiling the actual progress of Digital Building Permit: Getting awareness through a critical state of the art review

Growing interest is awarded to the digitalization of the building permitting use case and many works are developed about the topic. However, the subject is very complex and many aspects are usually tackled separately, making it very hard for traditional literature reviews to grasp the actual progress in the overall topic. This paper unveils the detailed state of the art in Digital Building Permitting (DBP) by critically analysing the literature by means of a set of coding tags (research progress, implementation, affected DBP workflow steps, ambitions addressed) assigned by a multidisciplinary team. The executed research shows that the mainly addressed aspects of the digitalization of building permit process are the technologies to check the compliance of design proposals against regulations, followed by the digitalization of regulations. Improvable aspects identified in the entire building permit system are instead e.g. the involvement of officers, scalability of solutions and interoperability of data, intended both as data validation and as integration of geospatial data with building models. © 2022 The Author

The Role of Open Standards in Digital Building Permitting, 3D Registration of Condominium, and Update of 3D City Models

Digitalization is being adopted in many public services to increase the efficiencies of the required operations. Regarding this, there is an important interest in digitalizing the current building permit procedures since most of the buildings are designed digitally and as three-dimensional (3D). In addition, several countries are making an effort to realize the transition from two-dimensional (2D) cadastre to 3D cadastre. This is because 2D delineation of the legal rights may remain incapable to reflect the reality with respect to property ownership in multipartite buildings. The 3D city models should also be kept updated to effectively manage the occasions (e.g. natural disasters) and services (e.g. waterworks) in the living areas. In this sense, the open data standards (e.g. CityGML and Industry Foundation Classes (IFC)) have a vital role to enable interoperability between different domains such as Architecture, Engineering, and Construction (AEC) and Land Administration (LA). In this context, this chapter aims to show the current situation and opportunities on how to efficaciously benefit from open data standards for three significant issues. The issues can be listed as, 1) digitalizing the building permit procedures, 2) registering the condominium as 3D, and 3) updating the 3D city models. The examination in the chapter concerns the cases for Turkey

How to exploit BIM/IFC for 3D registration of ownership rights in multi-storey buildings: an evidence from Turkey

The condominium rights, which is a special ownership type that can only exist in the buildings that have an occupancy permit, are needed to be examined and depicted as three-dimensional (3D) in order to prevent misinterpretations and disputes regarding Rights, Restrictions, and Responsibilities (RRRs). This paper, therefore, aims to provide the model that extends the Industry Foundation Classes (IFC) schema by referencing Land Administration Domain Model (LADM) in the sense of reusing the Building Information Modeling (BIM)/IFC model of the building for 3D registration of condominium rights in Turkey. The results of the study show that there is a solid potential to benefit from BIM/IFC model in order for both 3D representation of the ownership rights in the multi-storey buildings and obtaining the semantics of the condominiums in terms of wide ranges of attributes such as area, volume, land share, and RRRs.Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.GIS Technologi

3D Registration of Apartment Rights Using BIM/IFC: Comparing the Cases of the Netherlands, Saudi Arabia, and Turkey

Τhe built environment has a vast and ever-growing number of complex and multi-layered buildings and other structures. The number of those is growing because of the increasing pressure on the limited space in cities. It is important to note that different professional sectors are involved in the realization of a new building. These sectors are mainly the Architecture, Engineering, Construction, and Owner Operator (AECOO), and land administration, which covers the cadastral registration, spatial or zoning plans, as well as property valuation. Noteworthy to mention at this point is, that today the subdivision plans regarding apartment rights in buildings are to be provided on the floor plans as submitted with the building/construction permit request. These plans show the apartment boundaries as twodimensional (2D) representations, which are insufficient to clearly and completely describe the ownership rights in multi-storey buildings. What is more, the building parts obtained from 2D representations are also inadequate to estimate the valuation of these apartments in both taxation and selling/buying processes. Considering that digitalization and consequently digital data are becoming more and more the norm in the AECOO industry, including the building permit requests, there is an opportunity to exploit Building Information Model (BIM), specifically Industry Foundation Classes (IFC), in the registration of apartment rights in three-dimensional (3D) representations. To investigate the opportunity, this study will further analyze the cases of the Netherlands, Saudi Arabia, and Turkey by revealing the similarities and discrepancies with respect to the registration of apartment rights in terms of legislative basis and current practice and extrapolating the current 2D practices into fully 3D representations. In earlier work, ISO19152 LADM-based models for the 3D building legal spaces have been developed and are related to BIM/IFC. The main objective of the study is to highlight the possibility of providing an internationally standardized modeling specification for 3D registration of legal rights within buildings, based on the earlier detected information model overlaps. What is more, it is expected to increase the awareness in other sectors than land administration with regards to legal spaces in the buildings. Finally, this study endeavors to provide concrete guidelines for the other sectors, most specifically the Architects, regarding the type of information that BIM/IFC models should have, in order to facilitate the 3D registration of apartment rights

3D Registration of Apartment Rights Using BIM/IFC: Comparing the Cases of the Netherlands, Saudi Arabia, and Turkey

Τhe built environment has a vast and ever-growing number of complex and multi-layered buildings and other structures. The number of those is growing because of the increasing pressure on the limited space in cities. It is important to note that different professional sectors are involved in the realization of a new building. These sectors are mainly the Architecture, Engineering, Construction, and Owner Operator (AECOO), and land administration, which covers the cadastral registration, spatial or zoning plans, as well as property valuation. Noteworthy to mention at this point is, that today the subdivision plans regarding apartment rights in buildings are to be provided on the floor plans as submitted with the building/construction permit request. These plans show the apartment boundaries as twodimensional (2D) representations, which are insufficient to clearly and completely describe the ownership rights in multi-storey buildings. What is more, the building parts obtained from 2D representations are also inadequate to estimate the valuation of these apartments in both taxation and selling/buying processes. Considering that digitalization and consequently digital data are becoming more and more the norm in the AECOO industry, including the building permit requests, there is an opportunity to exploit Building Information Model (BIM), specifically Industry Foundation Classes (IFC), in the registration of apartment rights in three-dimensional (3D) representations. To investigate the opportunity, this study will further analyze the cases of the Netherlands, Saudi Arabia, and Turkey by revealing the similarities and discrepancies with respect to the registration of apartment rights in terms of legislative basis and current practice and extrapolating the current 2D practices into fully 3D representations. In earlier work, ISO19152 LADM-based models for the 3D building legal spaces have been developed and are related to BIM/IFC. The main objective of the study is to highlight the possibility of providing an internationally standardized modeling specification for 3D registration of legal rights within buildings, based on the earlier detected information model overlaps. What is more, it is expected to increase the awareness in other sectors than land administration with regards to legal spaces in the buildings. Finally, this study endeavors to provide concrete guidelines for the other sectors, most specifically the Architects, regarding the type of information that BIM/IFC models should have, in order to facilitate the 3D registration of apartment rights.Digital Technologie

Unveiling the actual progress of Digital Building Permit: Getting awareness through a critical state of the art review

Growing interest is awarded to the digitalization of the building permitting use case and many works are developed about the topic. However, the subject is very complex and many aspects are usually tackled separately, making it very hard for traditional literature reviews to grasp the actual progress in the overall topic. This paper unveils the detailed state of the art in Digital Building Permitting (DBP) by critically analysing the literature by means of a set of coding tags (research progress, implementation, affected DBP workflow steps, ambitions addressed) assigned by a multidisciplinary team. The executed research shows that the mainly addressed aspects of the digitalization of building permit process are the technologies to check the compliance of design proposals against regulations, followed by the digitalization of regulations. Improvable aspects identified in the entire building permit system are instead e.g. the involvement of officers, scalability of solutions and interoperability of data, intended both as data validation and as integration of geospatial data with building models.Urban Data Scienc

Tools for BIM-GIS Integration (IFC Georeferencing and Conversions): Results from the GeoBIM Benchmark 2019

The integration of 3D city models with Building Information Models (BIM), coined as GeoBIM, facilitates improved data support to several applications, e.g., 3D map updates, building permits issuing, detailed city analysis, infrastructure design, context-based building design, to name a few. To solve the integration, several issues need to be tackled and solved, i.e., harmonization of features, interoperability, format conversions, integration of procedures. The GeoBIM benchmark 2019, funded by ISPRS and EuroSDR, evaluated the state of implementation of tools addressing some of those issues. In particular, in the part of the benchmark described in this paper, the application of georeferencing to Industry Foundation Classes (IFC) models and making consistent conversions between 3D city models and BIM are investigated, considering the OGC CityGML and buildingSMART IFC as reference standards. In the benchmark, sample datasets in the two reference standards were provided. External volunteers were asked to describe and test georeferencing procedures for IFC models and conversion tools between CityGML and IFC. From the analysis of the delivered answers and processed datasets, it was possible to notice that while there are tools and procedures available to support georeferencing and data conversion, comprehensive definition of the requirements, clear rules to perform such two tasks, as well as solid technological solutions implementing them, are still lacking in functionalities. Those specific issues can be a sensible starting point for planning the next GeoBIM integration agendasUrban Data Scienc

Tools for BIM-GIS Integration (IFC Georeferencing and Conversions): Results from the GeoBIM Benchmark 2019

The integration of 3D city models with Building Information Models (BIM), coined as GeoBIM, facilitates improved data support to several applications, e.g., 3D map updates, building permits issuing, detailed city analysis, infrastructure design, context-based building design, to name a few. To solve the integration, several issues need to be tackled and solved, i.e., harmonization of features, interoperability, format conversions, integration of procedures. The GeoBIM benchmark 2019, funded by ISPRS and EuroSDR, evaluated the state of implementation of tools addressing some of those issues. In particular, in the part of the benchmark described in this paper, the application of georeferencing to Industry Foundation Classes (IFC) models and making consistent conversions between 3D city models and BIM are investigated, considering the OGC CityGML and buildingSMART IFC as reference standards. In the benchmark, sample datasets in the two reference standards were provided. External volunteers were asked to describe and test georeferencing procedures for IFC models and conversion tools between CityGML and IFC. From the analysis of the delivered answers and processed datasets, it was possible to notice that while there are tools and procedures available to support georeferencing and data conversion, comprehensive definition of the requirements, clear rules to perform such two tasks, as well as solid technological solutions implementing them, are still lacking in functionalities. Those specific issues can be a sensible starting point for planning the next GeoBIM integration agendas

Tools for BIM-GIS Integration (IFC Georeferencing and Conversions): Results from the GeoBIM Benchmark 2019

10.20944/preprints202007.0243.v1ISPRS International Journal of Geo-Information99502-50