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Modeling spatial variation of data quality in databases /Mohamed-Ghouse, Mohamed Zaffar Sadiq. January 2008 (has links)
Thesis (Ph.D.)--University of Melbourne, Dept. of Geomatics, 2009. / Typescript. Includes bibliographical references (leaves 127-134)
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Research and development of a GIServices engine for 3D visualization and analysis /Wang, Y. January 2004 (has links)
Thesis (M.Sc.)--York University, 2004. Graduate Programme in Earth and Space Science & Engineering. / Typescript. Includes bibliographical references (leaves 117-123). Also available on the Internet. MODE OF ACCESS via web browser by entering the following URL: http://gateway.proquest.com/openurl?url%5Fver=Z39.88-2004&res%5Fdat=xri:pqdiss &rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&rft_dat=xri:pqdiss:MR11920
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Service-oriented Geoprocessing in Spatial Data InfrastructuresMüller, Matthias 19 May 2016 (has links) (PDF)
Many of the ongoing activities towards establishing SDI on a regional, national, and international level are focused on data sharing and dissemination. Next to data access and visualisation, data processing is a third important pillar of GIS which can generate new insights by creating derived data or conducting computational analyses on original data sets. Within today’s largely data-centric SDI, two major challenges were identified that stand in the way of ubiquitous geoprocessing: The ability to use and exchange implementations of geoprocessing functions as freely as geographic data and the ability to describe, communicate and catalogue existing functionality on the Web.
This thesis evaluates the moving code approach as an alternative to client–server processing in a distributed SDI. While classical client–server configurations move pieces of data between remote processing services, data services, and clients over the network, moving code setups consider the transfer of portable software components to the location of data or the location of computing resources. To exchange implementations of geoprocessing functions at a larger scale, a Web based code sharing architecture is proposed. For improved descriptions of geoprocessing functions, WPS process descriptions are suggested as an interface description language. They are enhanced by a hierarchical profiling approach that permits different levels of granularity in the functional descriptions.
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Service-oriented Geoprocessing in Spatial Data InfrastructuresMüller, Matthias 11 March 2016 (has links)
Many of the ongoing activities towards establishing SDI on a regional, national, and international level are focused on data sharing and dissemination. Next to data access and visualisation, data processing is a third important pillar of GIS which can generate new insights by creating derived data or conducting computational analyses on original data sets. Within today’s largely data-centric SDI, two major challenges were identified that stand in the way of ubiquitous geoprocessing: The ability to use and exchange implementations of geoprocessing functions as freely as geographic data and the ability to describe, communicate and catalogue existing functionality on the Web.
This thesis evaluates the moving code approach as an alternative to client–server processing in a distributed SDI. While classical client–server configurations move pieces of data between remote processing services, data services, and clients over the network, moving code setups consider the transfer of portable software components to the location of data or the location of computing resources. To exchange implementations of geoprocessing functions at a larger scale, a Web based code sharing architecture is proposed. For improved descriptions of geoprocessing functions, WPS process descriptions are suggested as an interface description language. They are enhanced by a hierarchical profiling approach that permits different levels of granularity in the functional descriptions.
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Developing baseline data for monitoring and evaluation of land registration implementation in Rwanda : a case study of Gasabo district.Rurangwa, Eugène. January 2007 (has links)
Various literature suggest that securing access to land and guaranteeing land tenure security is essential for diverse land-based livelihoods and remains a prerequisite for sustainable agriculture, economic growth and poverty reduction. Secure land tenure is recognized as a key element to meeting the MDG target 11 to achieve significant improvement in the lives of 100 million slums dwellers by 2020. In the case of Rwanda, land tenure reform involves changes in land tenure systems from traditional and customary arrangements to more simple, modern and streamlined land tenure mechanisms guided by a core land registration system which is affordable, efficient and participatory. This development towards change in land registration patterns requires strong instruments for monitoring and evaluation and impact assessment of land registration implementation. The main purpose of this research is to develop key indicators to be used as baseline monitoring and evaluation instruments for land registration implementation in Rwanda, the shortage of time having limited the case study to one, but important District of Rwanda: Gasabo. The conceptual argument follows the logic of thinking that, when land tenure, symbolized by different values is supported by formal or legal land registration procedures, it gives it a dimension of power, insurance, guarantee and security that can be symbolized by different indicators measurable as variables. Seven key indicators were identified. To test the defined baseline indicators for validity, data was obtained from a sample of 150 respondents using a cluster sampling technique and structured interviews. The findings demonstrate the defined indicators could be measured and the quality of measurement (validity) established from statistical behavior of the variables. The results have shown that none of sampled households has a land title, this effect being recognized as a major hindrance to tenure security and to fruitful investment in land. Only those few who had other kinds of documents confirming rights to land, although of lesser weight, were eligible to a loan from a bank. The results have shown that the beneficiaries of bank loans have improved their income by being involved in land transactions and by acquiring a new land as well as buying domestic animals. The results also show that these interactions have brought a significant improvement in land productivity and consequently, raised income. Although household date showed low rate of land disputes, secondary data at district level showed significantly higher rates of occurrence and very low rates of dispute resolution. It is generally observed that land disputes could be avoided or solved if sufficient operational, legal and institutional instruments for disputes resolution and land registration are in place. / Thesis (M.Env.Dev.) - University of KwaZulu-Natal, Pietermaritzburg, 2007.
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A spatial decision support system utilizing data from the Gap Analysis Program and a Bayesian Belief NetworkDumas, Jeremiah Percy, January 2005 (has links)
Thesis (M.L.A.) -- Mississippi State University. Department of Landscape Architecture. / Title from title screen. Includes bibliographical references.
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Combining Geospatial and Temporal OntologiesJoshi, Kripa January 2007 (has links) (PDF)
No description available.
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Semantic Interoperability of Geospatial Ontologies: A Model-theoretic AnalysisFarrugia, James A. January 2007 (has links) (PDF)
No description available.
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Formalizations for geooperators-geoprocessing in Spatial Data InfrastructuresBrauner, Johannes 21 October 2015 (has links) (PDF)
Nowadays, geoprocessing has moved in large parts from isolated desktop usage into the Web. Thereby, the overall availability of geoprocessing functionality has theoretically improved. Nevertheless, web-based geoprocessing functionality is still not readily available and usable as means to find and subsequently compare functionality are yet missing. Discoverability and exchangeability of geoprocessing functionality are limited, and the fundamental benefits of online usage are not fully exploited. To close this gap, this thesis defines a conceptualization with geooperators representing well-defined geoprocessing functionality, and categories representing distinct geooperator attributes as a starting point. Geooperators and categories are connected by associative and hierarchical links forming an interlinked network. The conceptualization serves as basis for two purposes:
On the one hand, discovery of geooperators has to be improved. There is a multitude of different GIS users from varying backgrounds, all having a slightly different view on geoprocessing functionality. To embrace these varying views, several actually existing and established categorizations for geooperators are integrated into the conceptualization and structured hierarchically. Thus, multiple different perspectives on geooperators are enabled. The perspectives and the underlying categorizations are integrated into a geooperator browser serving as client that users can employ for discovery. The geooperator browser offers a faceted browsing interface based on the derived perspectives and categories. Several different search modes are offered and can be used simultaneously, thereby facilitating an improved discovery.
On the other hand, to establish comparability and subsequently semantically interoperable exchangeability of geooperators, respective geooperator attributes are defined. Thereby, backend and provider independence of geoprocessing services is achieved. The conceptualization is formalized to allow for machine readability and processing which is required for usage in Spatial Data Infrastructures and the Semantic Web. The formalized conceptualization is labeled geooperator thesaurus. It is encoded by Semantic Web standards and offered in a Semantic Web compliant manner. The integration into geoprocessing service metadata is enabled by injecting semantic annotations that link to the respective concepts in the geooperator thesaurus. The thesaurus serves as the underlying data model for the geooperator browser.
The thesis concludes with an outlook and discussions of future work. Foremost, the content of the geooperator thesaurus needs to be extended as it currently only comprises a representative subset of geooperators. An approach is suggested to involve the geoprocessing community as an important source of geoprocessing expertise in the maintenance and further development of the thesaurus. On a conceptual level, the thesaurus needs to be extended to a fully-fledged ontology including a formal geoprocessing algebra to support the creation of geooperator workflows. From a discovery point of view, the concept of geoprocessing patterns is outlined. Geoprocessing patterns list geooperators that are commonly used for certain geoprocessing tasks, and provide best practices about applying them in a meaningful manner and sequence. / An Stelle von isolierter Desktop-basierter Nutzung von Geoprozessierung werden heutzutage mehr und mehr webbasierte Angebote zur Verfügung gestellt. Dadurch hat sich die generelle Verfügbarkeit von Geoprozessierungsfunktionalität theoretisch verbessert. Da jedoch das Auffinden und anschließend oft notwendige Vergleichen von Funktionalität nur eingeschränkt möglich ist, können die Vorteile einer webbasierten Verfügbarkeit nicht vollständig genutzt werden. Um dieser Problematik zu begegnen, wird im Rahmen der vorliegenden Arbeit eine Konzeptualisierung entwickelt, die wohldefinierte Geoprozessierungsfunktionalität als Geooperatoren und Kategorien als Unterscheidungsmerkmale für Geooperatoren zur Verfügung stellt. Geooperatoren und Kategorien sind über assoziative und hierarchische Links zu einem Netzwerk verknüpft. Diese Konzeptualisierung erfüllt zwei grundlegende Aufgaben:
Einerseits muss das Auffinden von Geooperatoren für Nutzer mit unterschiedlichsten Anwendungshintergründen möglich sein. Diese Nutzer haben unterschiedlichste Sichten auf Geooperatoren, die berücksichtigt und unterstützt werden sollen. Dazu werden etablierte Kategorisierungen aus Literatur und Praxis in die Konzeptualisierung integriert, entsprechend hierarchisch strukturiert und als Perspektiven auf Geooperatoren für den Zugriff nach Außen zur Verfügung gestellt. Diese Perspektiven und die darunterliegenden Kategorien werden als Facetten in einen Geooperatorbrowser integriert, der als webbasierter Client von den Nutzern für das Auffinden von Geooperatoren verwendet werden kann. Die explorative Suche über Facetten nach Geoprozessierungsfunktionalität wird durch eine Schlüsselwortsuche und einen geführten Suchmodus ergänzt und damit insgesamt die Auffindbarkeit von Geooperatoren verbessert.
Andererseits sollen die Vergleichbarkeit und der anschließend semantisch interoperable Austausch von Geooperatoren ermöglicht werden. Dazu werden durch einen Vergleich von Geooperatorattributen Ähnlichkeiten von Geooperatoren definiert und zusammen mit der Konzeptualisierung als Geooperatorthesaurus formalisiert. Durch die Formalisierung wird eine Maschinenlesbarkeit und -prozessierbarkeit erreicht. Nur so kann ein anbieter- und backendunabhängiger Austausch von Geoprozessierungsdiensten in Geodateninfrastrukturen ermöglicht werden. Der Thesaurus nutzt Semantic-Web-Standards und wird in einer Semantic-Web-kompatiblen Art und Weise im Web publiziert. Die Integration in Metadaten von Geoprozessierungsdiensten wird durch semantische Annotationen erreicht, die auf die entsprechenden Konzepte im Thesaurus verlinken. Der Thesaurus dient als Datenbasis für den Geooperatorenbrowser.
Die Arbeit schließt mit einem Ausblick auf und einer Diskussion von zukünftigen Forschungsarbeiten ab. Da der Thesaurus zurzeit nur eine repräsentative Menge an Beispieldaten enthält, muss als erster wichtiger Schritt der Inhalt des Thesaurus erweitert werden. Für die mittel- und langfristige Instandhaltung und Weiterentwicklung des Thesaurus wird ein Konzept zur Einbindung der GIS-Community vorgeschlagen, da hier gebündelte Geoprozessierungsexpertise vorhanden ist. Auf einer konzeptuellen Ebene muss der Thesaurus für eine semantisch und technisch verbesserte Verkettung von Geooperatoren zu einer vollständigen Ontologie mit einer formalen Geoprozessierungsalgebra weiterentwickelt werden. Für eine weitere Verbesserung der Auffindbarkeit von Geooperatoren wird das Konzept von Geoprozessierungspatterns skizziert, die Geooperatoren zusammenfassen, die oft im Kontext einer bestimmten Aufgabe zusammen genutzt werden. Zusätzlich werden über die Patterns Best Practices zur sinnvollen Anwendung und Verkettung der enthaltenen Geooperatoren zur Verfügung gestellt.
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Discovering Data Infrastructures for the Sustainable Development Goals (SDGs)Jiang, Yuwei January 2022 (has links)
In 2015, the United Nations (UN) put forward 17 Sustainable Development Goals (SDGs) to beachieved by 2030. Each member state should spare no effort to fulfill the goals for better lives. Thefirst objective of this study was to explore how Big Data could be used to monitor the progress,including the opportunities and challenges that such novel technologies brought. Previous studieswere reviewed critically for the first objective. The second objective was to find out what datainfrastructures were helpful in monitoring the achievement of SDG 7. A systematic mapping studywas performed to accomplish the second objective. 53 SDG-related academic papers were obtained.Their research data and where they were sourced from were manually analyzed and categorized togenerate data infrastructures for SDG 7. Besides, the automated qualitative coding was conductedbased on the manual structure to verify the manually identified data infrastructures and comparetheir frequencies in the selected papers. The methodology of combining manual and automatedqualitative analysis proposed in this study helped find a list of SDG 7 related data infrastructures.Although there were differences between the manual and automated results, the World Bank, UNdatabases, Eurostat, and IEA were considered the most frequently referred data sources; electricitydata and satellite imagery were regarded as the most commonly used data types.
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