. "Web Gis"@en . . . . . . . . . . "Geoweb technology"@en . . "5" . "The course consists of four parts:\n\n1. Principles, application, evaluation and integration of generic web services and the importance of using standards when building them. The standards involved start with general ICT standards like HTTP, XML and JSON. Increasingly the semantics of data in the framework of web services, and linked data, plays an important role.\n\n2. Based on these general standards, geo-standards and protocols can be build (ISO TC-211/OGC web services and protocols). Combining the geo-standards and protocols results in a set of geo web services that more and more replace the traditional GIS tools. Topics of interest: geo-web system server-client architecture, WMS/WFS/... server, desktop/browser/mobile clients (incl. web application development), web-based transaction processing, portrayal, query (filter encoding), tiling, metadata service, web processing service, point cloud & vario-scale data services.\n\n3. Principles and applications of (real-time) Sensor Web. The components of Sensor Web will be explained and (some of them) used: Observations & Measurements, Transducer Markup Language, Sensor Observation Service, Sensor Planning Service, Sensor Alert Service and the Web Notification Service.\n\n4. Applying software tools for the visualization of 3D geo-data. Normally the first, and in many cases the most important, thing to do with (3D) geo-data is to visualize it. Nowadays data is delivered over the internet by means of web services. The standards, architecture and services for 3D geo-visualization, and the practical aspects of available (web) tools and how to use them will be explored.\n\n \nAfter the course the student is able to:\n\n- understand generic internet and web standards and apply these in the implementation of web information systems\n- describe the existing formal geo-standards, derived implementation specifications and related geo web services and their application domains\n- understand the Sensor Web Enablement Common Data Framework (common data models and schema) and the SensorML (models and schema for sensor systems and processes surrounding measurements) and use them in web services\n- describe the available (visualization) standards for the visualization of 3D geo-data, like X3D, 3D-pdf, WebGL, CityGML, KML, GeoJSON, glTF, b3dm, i3s and other industry standards / software tools\n- integrate several geo web services for supporting spatial decision making\n- evaluate existing geo web services in terms of specified applications and give motivated suggestions for improvement" . . "Presential"@en . "TRUE" . . "Master of Science Geomatics"@en . . "https://www.tudelft.nl/en/education/programmes/masters/geomatics/msc-geomatics" . "120"^^ . "Presential"@en . "With Geomatics for the Built Environment you will learn to use advanced techniques in data analysis, geographic data modelling and the visualisation of data. To be able to do this, you will develop expert skills in different programming languages such as Python, C++ and SQL, as they are essential for solving many of the Geomatics-related questions we need to consider.\r\n\r\nThe remote sensing techniques that you will learn in this programme give you the ability to measure and observe our environment and especially those features that cannot be seen with the human eye. Data management and analysis techniques allow you to turn these measurements into useful information and knowledge, with which patterns can be identified, behaviour over time can be tracked and a future state can be predicted. You will apply your skills in 3D modelling, GIS, mapping, serious gaming, simulation and visualisation to a wide range of fields such as urban planning, disaster management, geodesign, location-based services (LBS) and land administration. \r\n\r\nBeyond that, you will acquire knowledge about the use and governance of geographic data. In Geomatics you will implement the principles of open science to the greatest extent possible. In your assignments you will use open data and open source software, and your research results will be openly published in the university’s repository."@en . . . "2"@en . "FALSE" . . "Master"@en . "Thesis" . "2314.00" . "Euro"@en . "20560.00" . "Recommended" . "Geomatics graduates are specialists with a broad base who are able to position themselves across the entire breadth of the Geomatics spectrum. The Geomatics working field is expanding quickly so there is ample opportunity to find a position that suits you best or to start your own company. \n\nProspects:\n- geovernmental and private organisations (companies)\n- PhD research"@en . "no data" . "TRUE" . "Downstream"@en . . . . . . . . . . . . . . . . . . . . .