. . . "Develop a geophysical bid for a study of the subsurface supported by a decision support system to select the right tools and techniques."@en . . "Develop a geophysical bid for a study of the subsurface supported by a decision support system to select the right tools and techniques."@en . . . "Describe the various geophysical methods and its equipment to study, model and visualize the subsurface in 2D/3D."@en . . "Describe the various geophysical methods and its equipment to study, model and visualize the subsurface in 2D/3D."@en . . . "Determine the applicability of geophysics in 3D subsurface characterization for various applications."@en . . "Determine the applicability of geophysics in 3D subsurface characterization for various applications."@en . . . "Evaluate geophysical bid proposals (dynamically) model subsurface parameters and processes."@en . . "Evaluate geophysical bid proposals (dynamically) model subsurface parameters and processes."@en . . . "Extract subsurface parameters from analysis, modelling and visualization of geophysical data."@en . . "Extract subsurface parameters from analysis, modelling and visualization of geophysical data."@en . . . "Analyse derived subsurface parameters in relation to (sub)surface processes."@en . . "Analyse derived subsurface parameters in relation to (sub)surface processes."@en . . "201800271" . "CORE_004" . "4"^^ . "112"^^ . "40"^^ . "2023-07-06T22:00:00Z"^^ . "f2f" . "Teaching and learning involves a mix of different types of activities, including plenary lectures, tutorials, peer-review sessions and self-study. Active participation and critical reflection are stimulated."@en . . . . . . "Open for students in the Master of Science degree programme in Geo-Information Science and Earth Observation. The suitability of other candidates will be assessed on an individual basis. ,As for entry to the programme."@en . . "1"^^ . "1-4" . "1A-2B" . . . . . . . "2022-09-04T22:00:00Z"^^ . "This course provides students with the foundational knowledge and skills required to undertake scientific research in their chosen domain within Geo-information Science and Earth Observation. The course combines an understanding of important conceptual issues in scientific research with skills for designing and executing an individual research project. A critical, scientific attitude and the ability to reflect upon their own work and that of others will be developed."@en . "Academic Skills"@en . . "Academic Skills"@en . "Academic Skills"@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 . . . . "Course"@en . "201800320" . "AES_0003" . "7"^^ . "196"^^ . "10"^^ . "2023-07-06T22:00:00Z"^^ . "f2f" . "hybrid" . "Students can choose their own methods (2) to study, which are relevant for their study and/or work and will focus on these methods throughout the course. The teaching is therefore based on self-learning and application of geophysical methods through projects and fieldwork."@en . "Open for students with a background in earth sciences, physical geography, water resources, soil science, environmental science, engineering, applied physics/mathematics, with an interest in earth systems. Open for students with a background in earth sciences physical geography, water resources, soil science, environmental science, engineering, applied physics/mathematics, with an interest in earth systems. "@en . "6"^^ . "4" . "2B " . "2023-04-23T22:00:00Z"^^ . "This course serves to deliver knowledge on tools for 3D characterization, visualization and modelling of the subsurface. The development of homogeneous 3D subsurface information systems is important for various fields such as for environmental monitoring, soil studies, groundwater, natural hazards, and earth resources.\nMany earth processes have a source or a component below the surface. Understanding of the spatial and temporal variation of physical parameters in the subsurface therefore gives additional insight in these processes and their extent. This could be the extent of pollution plumes, distribution of water, nutrients, mineral resources, or e.g. sliding planes of landslides.\nThe course offers possibility to specialize in two geophysical methods and study these in detail, and final project."@en . "Geophysics - Imaging the Unseen"@en . "Geophysics - Imaging the Unseen"@en . "Geophysics - Imaging the