1,132 research outputs found
Analysing 3D Land Administration developments and plans from 2010 to 2026
Administration questionnaires. The last FIG questionnaire 2022-2026 was just analysed and the FIG working week 2023 (Kalogianni et al. 2023, and in that paper the creation or update, organization and initial analysis of the results from the 4th FIG 3D Land Administration Questionnaire, as an activity of the FIG Working Group 3D Land Administration 2022-2026 was presented. By sharing this information among the countries/ jurisdictions, a comprehensive inventory will be created. It is expected that cooperation will improve, by learning from the different countries and jurisdictions, to support future developments in the field of 3D land administration. It is noted that, as LADM is finding increasing recognition (Kalogianni et al., 2021), it has been further incorporated into the various sections of the questionnaire. The completed questionnaires, per country are fully available via the participants’ page of the 3D Land Administration Working Group website. The responses have been analyzed and reported in various publications (van Oosterom et al. 2011, van Oosterom et al. 2014 and Shnaidman et al., 2019), while the initial analysis of the 4th Questionnaire has been recently presented by Kalogianni et al. (2023). This paper aims to provide an overview of the developments and plans from the initial questionnaire in 2010, till the future plans for 2026, based on the analyses that have been previously carried out (van Oosterom et al. 2011, van Oosterom et al. 2014 and Shnaidman et al., 2019) and highlighting the results of the analysis from the latest questionnaire. The initial results from the latest questionnaire have been presented by Kalogianni et al. (2023), providing the main outcome from the current status (December 2022), while highlighting the priority axes till 2026 related to the developments of 3D LAS. What is more, an assessment rubric is developed by the team that prepares and analyses the questionnaires, that is actually a scoring of the responses in the various sections of the four (4) questionnaires This assessment process is the first time that is being carried out and it is executed for eight (8) countries and presented in this paper.Digital Technologie
Physical Apects of EEG.
Item does not contain fulltextTU Twente, 11 november 1999Promotores : Rogalla, H., Oosterom, A. van Co-promotor : Peters, M.J.145 p
3D Cadastral Lifecycle: An Information Delivery Manual ISO 29481 for 3D Data Extraction from the Building Permit Application Process
The lifecycle of a 3D cadastral spatial unit and its associated rights, restrictions and responsibilities is made up of many different parts and substages (Van Oosterom 2013). Onepart could be the extraction of 3D data from building permit application process. This paper looks at how this process could be coordinated with a number of other processes and the 3D data used for a variety of purposes including testing conformance to building regulations, rates assessment, inclusion in a national topographic map and asset management. Anassociated use case narrows the scope and illustrates how software which uses the Design and Engineering Methodology for Organisations (DEMO) (Dietz 2006) as reference can be used to facilitate this process.OLD Department of GIS Technolog
3D Cadastre and LADM - Needs and Expectations towards LADM Revision
The last decade, significant progress has been made in advancing the concept of 3D Cadastre and related technologies to facilitate its realisation. There are many examples of partial implementation and prototypes of 3D parcels registration around the world as stated by Kitsakis et al (2016) and Dimopoulou et al (2016) regarding selected countries. While standardisation in the land administration domain extends to 3D and even 4D representations, currently, there is no country that has a fully operational 3D Cadastre supporting all stages of the registration and dissemination (Van Oosterom et al, 2014). In the context of 3D Cadastre developments worldwide, the Land Administration Domain Model (LADM), ISO 19152, outlines the foundations for a 3D Cadastre and becomes one of the best candidates for unambiguously representing 3D Rights, Restrictions and Responsibilities (Kalogianni et al, 2017).The spatial development life cycle of an object begins outside the cadastral registration cycle and has a direct impact on how a specific development application is processed. Thus, in considering the changes required to allow a jurisdiction to register 3D objects, it is important to note the sphere of influence that could have an impact on 3D registration. These include multiple stakeholders and processes, which generate different user needs, as addressed at the previous section and also new opportunities that could be addressed on the current LADM version.To this purpose, this paper explores the needs and prospects towards further 3D modelling of the present LADM version, as derived by the current LADM experience in various countries worldwide in the context of the full spatial development cycle. Nevertheless, over the last few years the number of jurisdictions that are developing LADM-based country profiles,prototype systems and undertaking pilots using various physical models and data formats to achieve LADM implementation in the context of 3D Cadastre has become more significant.Those approaches can be mainly categorised as “fully operational” implementations and “partly-operational” implementations focusing on different aspects of 3D cadastre development cycle; e.g. submission of 3D survey plans, prototype stage; implementations that focus on visualisation, implementations that focus on constraints and validation rules, etc. Finally, within this context, this paper examines how current LADM version can efficiently meet the needs stated above and update user requirements for LADM in the context of the upcoming revision.OLD Department of GIS Technolog
Improving EEG source analysis using prior knowledge.
Item does not contain fulltextKUN, 02 juli 2003Promotores : Oosterom, A. van, Stegeman, D.F. Co-promotor : Praamstra, P
INSPIRE activiteiten in het jaar 2008
Dit rapport bevat een beknopt verslag van de INSPIRE activiteiten van Peter van Oosterom in 2008. Deze zijn uitgevoerd ten behoeve van Kadaster, TNO Bouw en Ondergrond en TU Delft/RGI-116. Het rapport bevat een flink aantal bijlagen waarin de in 2008 geproduceerde resultaten integraal zijn opgenomen (presentaties, artikelen, analyses, etc.)GIS TechnologyOTB Research Institut
Validity of Mixed 2D and 3D Cadastral Parcels in the Land Administration Domain Model
In the move towards a 3D Cadastre, many jurisdictions are considering a hybrid 2D/3D database as either a stage of development or as a target in itself (van Oosterom, Stoter, Ploeger, Thompson and Karki 2011). The Land Administration Domain Model (LADM), which is the underlying model for the ISO 19152 standard assists in this approach by defining a data structure which allows a relatively seamless mixing of 2D and 3D “spatial units” (Lemmen, Van Oosterom, Thompson, Hespanha and Uitermark 2010). This standard is in its final stages of approval (Lemmen, Uitermark and van Oosterom 2012). For the purpose of this paper, there is no important distinction to be made between “parcels” “lots” or “spatial units”, since it is only the spatial aspects (topology and geometry) that are being considered, so the term “parcel” will be used to mean the extent of land or space being considered.OTB ResearchOTB Research Institute for the Built Environmen
Surface motor unit potentials: the building stones of surface electromyography
Contains fulltext :
mmubn000001_247460370.pdf (Publisher’s version ) (Open Access)Promotores : D. Stegeman, A. van Oosterom en S. Notermans128 p
Creëren van geleidelijke inhoud voor de Space Scale Cube
Zo’n vijf jaar geleden is in Geo-Info het concept van vario-schaal geo-informatie beschreven (van Oosterom en Meijers, 2012). In dit eerdere artikel werd de eerste echt geleidelijke vario-schaal structuur gepresenteerd: een delta schaal geeft een delta in de kaart (en hoe kleiner de delta schaal hoe kleiner de delta kaart). De afgelopen vijf jaar is er veel R&D verricht om met het concept van vario-schaal geo-informatie te realiseren: ontwikkelen van prototypen en testen met echte data. In het kader van het Open Technologieprogramma (OTP van STW, Stichting Technische Wetenschappen) project 11185 ‘Vario-scale geo-information’ is er de afgelopen jaren veel vooruitgang geboekt. De belangrijkste resultaten worden in een serie beknopte artikelen behandeld. Dit is het vijfde artikel in de serie. Hierna zal dit jaar nog één artikel volgen: Hoe de geleidelijke SSCinhoud kan worden gebruikt in een browser gebaseerde (GPU/ WebGL) visualisatie omgeving met geanimeerde geleidelijke pan en zoom interacties.OLD Department of GIS Technolog
In vivo ultrasonic tissue characterization of liver metastases
Contains fulltext :
122226.pdf (Publisher’s version ) (Open Access)Katholieke Universiteit Nijmegen, 19 februari 1998Promotor : Oosterom, A. van Co-promotor : Thijssen, J.M.120 p
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