三维地籍形态分析与数据表达

研究目的：建立三维地籍模型,描述三维地籍产权体并兼容二维地籍宗地,实现不同维度土地权属的统一管理和登记。研究方法：结合中国城市发展的实例和地籍管理需求,分析三维地籍基本形态,比较各类三维空间数据模型。研究结果：提出适应三维地籍管理功能需求的三维地籍空间数据模型及其相应的数据自动组织方法和思路。研究结论：三维地籍通过地理空间坐标这个“基因”来管理不动产,为土地和房产的统一登记提供了统一的技术框架,是对现行不动产管理技术的升级和超越。     

Towards integration of 3D legal and physical objects in cadastral data models

Digital 3D cadastres are often envisaged as the visualisation of 3D property rights (legal objects) and to some extent, their physical counterparts (physical objects) such as buildings and utility networks on, above and under the surface. They facilitate registration and management of 3D properties and reduction of boundary disputes. They also enable a wide variety of applications that in turn identify detailed and integrated 3D legal and physical objects for property management and city space management (3D land use management).Efficient delivery and implementation of these applications require many elements to support a digital 3D cadastre, such as existing 3D property registration laws, appropriate 3D data acquisition methods, 3D spatial database management systems, and functional 3D visualisation platforms. In addition, an appropriate 3D cadastral data model can also play a key role to ensure successful development of the 3D cadastre.A 3D cadastral data model needs to reflect the complexity and interrelations of 3D legal objects and their physical counterparts. Many jurisdictions have defined their own cadastral data models for legal purposes and have neglected the third dimension, integration of physical counterparts and semantic aspects.To address these problems, this paper aims to investigate why existing cadastral data models do not facilitate effective representation and analysis of 3D data, integration of 3D legal objects with their physical counterparts, and semantics. Then, a 3D cadastral data model (3DCDM) is proposed as a solution to improve the current cadastral data models. The data model is developed based on the ISO standards. UML modelling language is used to specify the data model. The results of this research can be used by cadastral data modellers to improve existing or develop new cadastral data models to support the requirements of 3D cadastres.     

A technical solution for 3D crowdsourced cadastral surveys

The development of 3D property registration systems is indispensable for the spatial determination of property Rights, Restrictions and Responsibilities (RRR), the sustainable operation of property markets and the safeguarding of ownership in the highly urbanized world. Several developments in computer graphics, 3D modelling and rendering techniques have attracted the growing global interest in 3D cadastre. Since 2012, the Land Administration Domain Model (LADM ISO 19152) is adopted as the international standard for 2D and 3D cadastral data modelling. Developed legal procedures and prototype systems for 3D property rights registration provide interesting solutions for data acquisition and visualization but such approaches are time and cost demanding. In parallel, 2D cadastral surveying procedures have progressed significantly in reducing required time and cost, utilizing crowdsourcing methodology and mobile services.This paper presents a technical solution under development, aiming to provide the beginning for a new era in the initial acquisition, registration and representation of 3D crowdsourced cadastral data, appropriate for both the developed and the developing world. The proposed solution consists of two complementary parts, the technical framework and the crowdsourced methodology to be followed. The technical framework consists of two interconnected parts, the server-side and the client-side. The server-side refers to the Database Management System (DBMS) where the collected data are stored. The client-side refers to the data capturing tool, which in this case is the mobile device. For the server-side, a prototype system based on model driven architecture practices and LADM is developed; while for the client-side, an open-source mobile application for the acquisition of 3D crowdsourced cadastral data, 3D modelling and visualization of 3D property units as block models (LoD1) on a mobile’s phone screen in real-time, is developed.This research is focused on investigating technical aspects for capturing and integrating data about legal rights on physical objects. Detailed investigation of legal issues is not within the objectives of this research. Two case-studies for testing the proposed technical solution are made. An assessment of the current stage of development of the technical solution is presented. The main conclusions converge that the proposed technical solution has huge potentials for the fast, economic implementation of 3D cadastral surveys as it can produce an accurate and reliable 3D information model, depending on the accuracy of the available basemaps. The developed application is easy-to-use as users may not have the necessary level of 3D modelling skills in order to contribute to the registration procedure.     

Generic land registry and cadastre data model supporting interoperability based on international standards for Turkey

Managing land information effectively is a key factor in achieving successful land administration and sustainable land development. To manage land, each government has a land policy and administration system. A land administration system (LAS) enables identification, registration and sharing of information about land in compliance with land policies by using information technologies effectively. In this context, land information systems (LISs) are designed to fulfill the requirements related to land, to provide tenure assurance and to manage natural resources sustainably. In Turkey, the necessity of information technologies and geographic information systems (GIS) was recognised by public institutions in the early 1990s. The Land Registry and Cadastre Information System Project (TAKBIS in Turkish) started to manage land registry and cadastre data and processes throughout Turkey. By using a standard framework, the project aimed to digitise land registry and cadastre data and to perform all activities and queries in a digital environment. However, the project did not reach the expected level of success because the data infrastructure was not standardised and did not meet the data requirements of other stakeholders at the national and international level.On the other hand, studies of a new e-government project called Turkish National GIS (TUCBS in Turkish) was initiated to establish a national geographic data infrastructure (GDI) which allows efficient management of geographic data and corresponds to national-level user requirements and Infrastructure for Spatial Information in Europe (INSPIRE) specifications. In this study, to provide data interoperability among different institutions and meet stakeholder needs, the data model of the Land Registry and Cadastre Data Theme is examined and improved. Within the design process, the ISO 19152 Land Administration Domain Model (LADM) and INSPIRE Cadastral Parcels are examined and applied as the baseline international standards. In addition, main land and land group parcel types in the Turkish cadastral system, the main rights, restrictions and responsibilities related to land in the Turkish registration system, mortgages established over rights, cadastral maps, standard subdivision of two-dimensional (2D) space with special names, surveyed point and monumentation types were explained briefly within the revised land registry and cadastre data model. As a case study, data sets from different sources were transformed to open data sets compatible with the model. This model enables data interoperability in land-related applications. However, models should be kept as simple as possible for effective data transformation and management.     

Development of process model for Serbian cadastre

Identifying the processes in the cadastre enables understanding the principles on which the cadastre works. Processes in cadastre define the way how the cadastre manages information and what are the prerequisites for the data to be stored in the appropriate data structure. In order to explicitly specify cadastral procedures and workflows to support their automatization, we developed a process model for Serbian cadastre. The main reason for developing the process model is to ensure the framework which will provide possible integration and interoperability with other systems outside traditional cadastral system and between cadastral subsystems themselves. The process model is based on hierarchical decomposition of two basic groups of processes: processes for changing cadastral data and processes for displaying cadastral data. Each group of processes is further decomposed step by step until the workflow of a single process is shown. The developed process model is an abstract model, i.e. it is independent of the implementation. However, in order to instantiate such process model, it is necessary to provide binding of the abstract process model to its underlying implementation. Cadastral registration of spatial units may be beneficial for activities that relay on land administration, such as taxation, spatial planning, obtaining a building permit or legalization of buildings. This relation to the processes under jurisdiction of other organizations justifies the use of cadastral process model and its implementation into SOA environment. Traditionally, cadastral processes include alphanumeric data and 2D spatial data on cadastral maps that contain 2D borders of parcels and buildings. However, recent advancements in 3D technology bring the opportunity to enhance such processes with 3D information. In particular, the aim is to extend current 2D process model to support data maintenance and transactions in the upgrade towards 3D cadastre. Therefore, these 3D data supported workflows are introduced to the process model. For the processes that include 3D information the choice has to be made which specifications will be used and how representations of 3D spatial units will be resolved. In this paper, we first develop an abstract process model of Serbian cadastre. After that, we extend the process model to include 3D information, discuss the options for using the encodings of 3D spatial units (legal spaces) and select buildingSMART openBIM IFC standard for this purpose.     

Development of 3D underground cadastral data model in Korea: Based on land administration domain model

Underground space is being considered as a sustainable development resource, especially in heavily urbanized areas such as Seoul, in Korea. However, regarding 3D underground property, uncertainties and gaps exist between cadastral system and real property registration system. In Korea, cadastral system is able to deal with only 2D surface parcel, on the contrary, real property registration system is able to register and manage legal status of 3D underground properties. The mismatch between these two systems causes various types of problems for underground properties such as a vertical boundary disputes between aboveground and underground ownerships, administrative confusion and dual-compensation problems for new underground construction, reconstruction and haphazard development for underground space due to the lack of systematic registration procedure. In order to overcome these problems, this research proposes a 3D underground cadastral data model, which is associated and integrated with classes in ISO 19152 Land Administration Domain Model (LADM) developed by the Technical Committee 211 of the International Organization for Standardization. The proposed 3D underground cadastral data model comprises two packages: 3D underground parcel package, and 3D underground surveying and mapping package. It would support a better service for land administration by providing reliable and accurate spatial information on 3D underground property. In order to validate the proposed 3D underground cadastral data model, the prototype is developed and implemented in real-world situation for the first time. The proposed 3D underground cadastral data model can register various types of 3D underground properties including architectures such as shopping mall, public walkway, parking lot, and etc., and civil infrastructures such as subway, road, water supply, sewage, common utility tunnel, and etc. The results show that the proposed 3D underground cadastral data model could be applicable for other information system such as land valuation and taxation system, urban planning system, construction and facility management system.     

A structured framework for 3D cadastral data validation − a case study for Victoria,Australia

There are a wide variety of cadastral objects, ranging from simple 2D entities such as a land parcel, to complex 3D objects such as multistory/multi-owned buildings. The complex infrastructures development happening above and below the ground complicates the processes required for defining rights, restrictions and responsibilities in 3D (3D RRRs). Even in the current, predominantly, 3D analogue cadastral system which relies on 2D drawings and representations, defining 3D RRRs is still a complicated task. With the widespread use of 3D geospatial information technologies, it is increasingly becoming easy to realise and interpret a 3D digital cadastre system. As part of the process of transition from the 2D representation of cadastre towards a 3D digital cadastre, not only will 2D representations be replaced with 3D models, but the examination workflow and its principles also need to be able to manage 3D models. Developing principles and validation rules is a critical requirement to guarantee that the diverse cadastral data is trustable and contains enough detail to define the spatial and legal extents of ownership. This paper proposes a structured framework to define validation rules for 3D cadastral models. The paper’s methodology utilises a case study approach where a plan examination process in Victoria, Australia has been analysed to investigate the principles of examining cadastral plans, and further expanded on for validating 3D digital plans. The paper concludes with a discussion on the implications of the proposed 3D validation rules and proposes future research within the topic of 3D cadastral data validation.     

Cadastral data as a source for 3D indoor modelling

Despite the rapid development of indoor spatial data acquisition technology, there are currently no solutions that enable large-scale indoor spatial data acquisition due to several limiting factors that characterize the indoor space. This fact, together with the rapidly growing need for indoor models, is the main motivation for our research. The focus is on the study of the appropriateness of existing cadastral data for 3D indoor modelling. Within the study, a framework for 3D indoor modelling has been developed, comprising a chain of processes, starting from initial cadastral data and ending with the OGC IndoorGML compliant document. The process chain is divided into three parts, which are described individually and supported by UML activity diagrams. The Slovenian Building Cadastre data represents the basis for the framework design and data assessment. The IndoorGML standard is used for final outputs, as it provides a standardized data model for the representation and exchange of indoor spatial information designed for indoor navigation and location-based services. The data storage options using a spatially enabled database are presented for storing 2D and 3D geometries. The stored data enables fully automatic IndoorGML document generation on request, while also taking advantage of all spatial database functionalities. The proposed approach is software independent and can be implemented with various spatially enabled software packages. In addition to 3D indoor data modelling, the framework represents a comprehensive method for assessing the usability of input data for the purpose of 3D indoor modelling. The assessment is done for the case of the Slovenian Building Cadastre. The assessment of the cadastral data suitability for 3D indoor modelling can be used for decisions regarding future steps towards a multi-purpose 3D real property cadastre. The presented concept can be applied in many countries worldwide that have a similar condominium registration system.     

Layer approach to ownership in 3D cadastre in the case of underground tunnels

The paper focuses on approaches to the registration of real property rights in the case of underground or subway tunnels in different EU countries: Austria, Bulgaria, Czech Republic, Croatia, Greece, Poland, Slovenia, and Sweden. The authors conducted analysis on the registration of rights to subway tunnels in the chosen countries, including its effectiveness in ensuring appropriate property rights to construct and exploit tunnels. Special attention was given to limitations related to the lack of legal provisions vertically dividing space, i.e. into layers, and referring to the ownership right to the layers. Benefits which might be achieved by the introduction of a 3D real property subdivision were pointed out. The analysis of the available data concerning the geometry of subway tunnels in particular countries was presented. The authors tried to answer the question whether the accessible data concerning the geometry of subway tunnels allows to generate a 3D geospatial model of a constructed object, and to specify the space which should be determined as a 3D parcel in the 3D real property cadastre, for the purpose of registering property rights for the object (the tunnel).     

Geometrical data validation in 3D digital cadastre − A case study for Victoria,Australia

Data ambiguity and invalidity can cause significant expensive issues in the cadastral domain (e.g. legal disputes). An automated data validation can significantly help to reduce the potential issues. Quality assurance has been comprehensively investigated in various domains, however, the validation of 3D cadastral data is still in its early development. The availability of various regular and irregular shapes for 3D cadastral objects and modern building designs has resulted in a critical need for developing validation rules to ensure data validity and quality.The land registry in Victoria, Australia, is investigating the technical requirements for implementing a 3D digital cadastre. The study of 3D cadastral data validation requirements has been part of this ongoing investigation. This study is being undertaken in three main phases including 1) developing geometrical validation rules, 2) developing non-geometrical validation rules, 3) implementing an online service to validate 3D cadastral data.This paper aims to discuss the initial outcomes of the first phase of the aforementioned study which has focused on developing geometrical validation rules for 3D cadastral objects. The paper reviews the development of four geometrical validation rules which have been formalised using mathematical expressions to check the individual 3D parcels and their relationships with adjoining or neighbouring parcels. The first validation rule checks the compatibility of the cancelled parcel against the created parcels. The second rule deals with parcel collision detection which is required for flagging unacceptable intersection of 3D objects. The third rule ensures the faces forming a 3D parcel are flat. The fourth validation rule assures 3D objects are watertight. The paper concludes with a discussion around the impacts of the proposed validation checks on the subdivision process and future research for the Victorian 3D digital cadastre.     

4D cadastres: First analysis of legal,organizational, and technical impact—With a case study on utility networks

The increasing complexity and flexibility of modern land use requires that cadastres need an improved capacity to manage the third dimension. As the world is per definition not static, there also will be needs in relation to the representation of the temporal (fourth) dimension either integrated with the spatial dimensions or as separate attribute(s). In this paper, registration of utility networks in cadastre are considered in this 3D + time (=4D) context. A number of countries in the world have developed methods to register utility networks complying with their legal, organizational, and technical structure. We researched the different approaches of three specific countries: Turkey, The Netherlands and Queensland, Australia. These are analysed to evaluate a solution that matches legal, organizational, and technical cadastral requirements in the most optimal way.     

Developing a sustainability strategy for multipurpose cadastre in post-conflict Syria

There is no doubt that the armed conflict is development in reverse that brings about a severe wastage of human capital and infrastructures. The ongoing violence over the last half a decade in Syria has caused serious economic devastation and a massive loss of properties, landlessness, and lack of clarity relating to ownership or use rights. Post-conflict reconstruction is essential as it assigns the future shape of the country, and it is mostly determined by the commitment and capacities of local populations, including national government and civil society, to maintain the process. Therefore, it is necessary to identify the challenges, obstacles, and issues inhibiting the approach of restoring and sustainably developing the current system. Building a potential cadastral system for post-conflict Syria requires practical contributions from all stakeholders to explore possible ideas that may come up with other procedures for solving many legal, political, and technical issues. The design of a clear strategic framework for modernizing cadastral infrastructure will provide more excellent social stability and expand the prospects for economic growth within post-conflict communities. The main objective of this research is to describe a proposed approach for a reconstruction process oriented towards building an electronic multipurpose cadastre in support of sustainable development from an international perspective in line with modern technology. The addressed model ensures unified real estate registration and simplifies the information interchange between agencies.     

三维地籍的建立分析

三维地籍是土地利用和社会、经济发展的必然结果,它将会在土地管理和社会经济发展规划中发挥重要的作用,但是在现有的技术、经济和法律条件下将土地空间信息进行登记、利用还存在着一定困难.通过阐述我国土地利用发展对三维地籍的需求,从经济、法律和技术方面讨论了目前三维地籍在建立过程中存在的障碍.     

地籍效益的研究

在阐述了地籍效益研究的意义,给出地籍、地籍信息、成本和效益等基本慨念的定义后．结合实例以定性和定量相结合的方法对地籍的效益做出了初步探讨。     

基于任务协同的房地登记数据整合模式研究

研究目的:针对当前不动产登记数据多源异构、数据量大等特点,探索一种以土地登记数据为基础,依据宗地管理单元(地籍区、地籍子区)从空间上对数据整合区域进行剖分、基于任务协同和不动产单元的房地登记数据整合方法,解决房地登记数据难以高效率、自动化、流程化整合的问题。研究方法:利用协同理论搭建房地登记数据整合框架,利用实证分析法验证提出的数据整合技术方法。研究结果:提出了基于任务协同的房地登记数据整合方法,构建了房地登记数据整合框架,解决了数据匹配、任务推送等关键问题,进行了基于徐州市房地登记数据的房地登记数据整合应用实践。研究结论:房地登记数据是不动产统一登记数据整合的难点,以宗地管理单元对数据整合区域进行剖分、基于任务协同和不动产单元的房地登记数据整合技术,能够高效实现房地登记数据集成,对构建房地登记数据整合长效机制具有重要意义。     

Determining the property ownership on cadastral works in Turkey

The transformation process from state to civil ownership in Turkey was started at the end of the Ottoman Empire and continued until after the formation of Turkish Republic. In this process, in accordance with the Civil Code legislation, most land users who had been using state lands were regarded as owners of those lands. These parcels of real estate were used in various ways and it became necessary to register these properties by using a process called ‘written cadastre’. The initial process was slowed down during World War II but an intensive cadastral program was begun after the war in both urban and rural areas, particularly in 1950s. The cadastre work had two components called technical and legal. The definition of land ownership is the legal foundation of the cadastre. If properties have their titles, land ownership can be defined based on the title; otherwise the ownership can be defined according to statements by experts chosen from local people. However, without title or written evidence, determining the land ownership is more problematic. In this context, this study explains how the ownership of properties, with or without a title, is determined in cadastral work in Turkey.     

3D cadastres for densely occupied informal situations: Necessity and possibility

Much of 3D cadastre research and development targets high valued urban land, including condominiums, apartment buildings, and office complexes. The value of the land and the economic activity generated from transactions in this urban space potentially support the cost and time spent on establishing and maintaining a 3D cadastre. Methods for data acquisition and for construction and maintenance of the 3D cadastre are also simpler in the regular and formally planned and surveyed structures of the high value urban environment. Low-income, urban areas of informal tenure and informal development, however, also need and can benefit from a land administration system supported by a 3D cadastre but are neglected in the 3D cadastre research. Mechanisms are required for quick and cost effective construction of a 3D cadastre in this type of area to support land management and regularisation procedures, and to provide security of tenure. Light Detection and Ranging (LiDAR) is one technology that may be examined to differentiate structures in densely occupied environments where limited information and limited resources must be able to be used for managing the land and also protecting informal rights.This paper initially posits the need for 3D cadastres in low-income but densely structured urban settlements. It then tests the ability of an existing LiDAR dataset together with orthoimagery, derived to be low cost so therefore having limited specifications, for capturing sufficient definition of 3D occupation in the low-income, densely structured case study area of Laventille in Trinidad and Tobago.The difficulties of manually or automatically discriminating between close and overlapping structures and boundaries are highlighted and it is found that there is still a need for adjudication and verification of boundaries on the ground, even when physical features can be discerned from the software.     

基于工作流的地籍管理信息系统的设计

在分析了传统地籍管理信息系统中存在问题的基础上,引入了工作流的概念,据此,提出了基于工作流的地籍管理信息系统的建设,并对该系统的设计进行了详细的介绍。