. . . "Assess requirements from an application perspective to select appropriate graphic representations to map changes."@en . . "Assess requirements from an application perspective to select appropriate graphic representations to map changes."@en . . . "Plan a photogrammetric mission with a focus on quality aspects of the results."@en . . "Plan a photogrammetric mission with a focus on quality aspects of the results."@en . . . "Create GeoWebservices and associated web mapping clients for information dissemination"@en . . "Create GeoWebservices and associated web mapping clients for information dissemination"@en . . . "Determine the requirements of 3d viewing environments, and explain the application of depth cues."@en . . "Determine the requirements of 3d viewing environments, and explain the application of depth cues."@en . . . "Explain the role of Open Standards and use them for the creation and consumption of GeoWebservices."@en . . "Explain the role of Open Standards and use them for the creation and consumption of GeoWebservices."@en . . . "Explain the principles of web architectures and web services requirements for web/cloud applications."@en . . "Explain the principles of web architectures and web services requirements for web/cloud applications."@en . . . "Utilize image orientation procedures for the generation of topographic products such as maps and Digital Terrain Models."@en . . "Utilize image orientation procedures for the generation of topographic products such as maps and Digital Terrain Models."@en . . . "Evaluate and analyse the uncertainty of spatial datasets and model outputs, and choose the appropriate option to design an effective uncertainty visualization."@en . . "Evaluate and analyse the uncertainty of spatial datasets and model outputs, and choose the appropriate option to design an effective uncertainty visualization."@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "The Master’s Programme Geo-Information Science and Earth Observation (M-GEO) is a two-year academic curriculum at MSc level, taught fully in English, dedicated to understanding the earth’s systems from a geographic and spatial perspective. The field of Geo-information Science and Earth Observation has, in recent years, witnessed fast scientific and technological developments. As a result, geographic information has become a vital asset to society and part of our daily life. The ubiquitous production and availability of spatial data require cloud computing and new technology to turn the increasing volume of ‘big data’ to good use. The growing range of global challenges, from climate change and resource depletion to environmental pollution and pandemic diseases, that our society and in particular the more vulnerable populations on our planet are facing, increases the demand for academic professionals who have the ability, attitudes and skills to design solutions that are sustainable, transdisciplinary and innovative with positive societal impacts. Our education focuses on addressing these global problems by means of advanced geo-information and earth observation applications."@en . "Master’s Programme Geo-Information Science and Earth Observation (M-GEO)"@en . . "Master’s Programme Geo-Information Science and Earth Observation (M-GEO)"@en . . . . . . . . . . . . . . "Geoinformatics"@en . "GFM"@en . . . "Course"@en . "201800290" . "GFM_003" . "7"^^ . "196"^^ . "10"^^ . "2023-04-20T22:00:00Z"^^ . "f2f" . "This course deepens the theoretical knowledge and practical skills regarding the extraction, analysis, and dissemination of geospatial information. Theoretical lectures and flipped-classrooms will provide students with in-depth scientific knowledge of the methods and (ungraded) supervised practical sessions will let students practice these skills. An individual assignment will test the student’s practical knowledge on Geovisualization. Key to this course is a group assignment which integrates the various concepts taught in the lectures and promotes peer-learning. Teams will work together to combine the different processes of extraction, analysis and dissemination into a single practical project. Question hours and example exams will help students prepare for the final individual exam which tests the theoretical knowledge acquired during the course."@en . "Knowledge and skills as covered in the Core courses Geo-information Science and Modelling, Earth Observation and Data Integration: Principles, Approaches and User perspectives ,Knowledge and skills as covered in the Core courses Geo-information Science and Modelling, Earth Observation and Data Integration: Principles, Approaches and User perspectives.\n\nBeing able to develop solution strategies, high-level solution descriptions in pseudo-code, and translations of these into an implementation in some programming language as covered in the course Scientific Geocomputing.\n\nKnowledge and skills with respect to geodata curation, manipulation and transformation, transformational design, mathematics, spatial data quality and cartographic design principles as covered in course Acquisition and Exploration of Geospatial data."@en . "1"^^ . "3" . "2A" . "2023-02-05T23:00:00Z"^^ . "This course teaches the extraction, analysis, and dissemination of information from geospatial data in an iterative approach using concrete applications. Exemplary course topics are the creation of Digital Terrain Models using photogrammetric techniques, and the visualization of the results in a 3D environment using Virtual Reality. Furthermore, you will use different map representations to visualize time series results taking uncertainty of measurements and models into account. Lastly, the design and creation of geoservices and web mapping technology will be discussed."@en . "Extraction, analysis and dissemination of geospatial information"@en . "Extraction, analysis and dissemination of geospatial information"@en . "Extraction, analysis and dissemination of geospatial info