. . . "Operate conceptual & 1-D models of flux exchange of precipitation and evapotranspiration."@en . . "Operate conceptual & 1-D models of flux exchange of precipitation and evapotranspiration."@en . . . "Find and collect hydro related information from EO data supplied via the world wide web."@en . . "Find and collect hydro related information from EO data supplied via the world wide web."@en . . . "Understand the water storage of nature and the forces and resistances acting over the water fluxes in the Earth-Atmosphere."@en . . "Understand the water storage of nature and the forces and resistances acting over the water fluxes in the Earth-Atmosphere."@en . . . "Analyze time series of weather and EO data for applications in Water Productivity and droughts."@en . . "Analyze time series of weather and EO data for applications in Water Productivity and droughts."@en . . . "Understand the concepts of Radiation & Energy Balance and the synergy in the water cycle."@en . . "Understand the concepts of Radiation & Energy Balance and the synergy in the water cycle."@en . . . "Operate conceptual & 1-D models of flux exchange of soil moisture and conceptual models of groundwater."@en . . "Operate conceptual & 1-D models of flux exchange of soil moisture and conceptual models of groundwater."@en . . "https://ltb.itc.utwente.nl/page/792/concept/152740" . . "Water cycle"@en . . . . . . . . . "https://ltb.itc.utwente.nl/page/792/concept/152749" . . "Soil moisture"@en . . . . . "https://ltb.itc.utwente.nl/page/792/concept/152775" . . "Groundwater"@en . . . . . "https://ltb.itc.utwente.nl/page/792/concept/152800" . . "Energy cycle"@en . . . . . "https://ltb.itc.utwente.nl/page/792/concept/152811" . . "Hydrology cycle"@en . . . . . "https://ltb.itc.utwente.nl/page/792/concept/152832" . . "Evapotranspiration"@en . . . . . "https://ltb.itc.utwente.nl/page/792/concept/152833" . . "Precipitation"@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 . . . . . . . . . . . . "Water Resources and Environmental Management"@en . "WREM"@en . . . "ArcGIS"@en . . . "DynaCLUE"@en . . . "ILWIS"@en . . . "Maxan"@en . . . "Excel "@en . . . "QGIS"@en . . . "RStudio"@en . . . "SPSS"@en . . . "Course"@en . "201800275" . "WREM_002" . "7"^^ . "196"^^ . "10"^^ . "2023-02-02T23:00:00Z"^^ . "f2f" . "The course lasts for 10 weeks, with a balance time between Q2.1 (Physical Processes, this course) and Q2.2 (Earth Observations, sibling course).\nLectures, usually during mornings, explain the physical process in the radiation, energy and water balance, its components and the application examples to Water Productivity and Droughts. Lectures are both in class and recorded.\nThe practice is both supervised and unsupervised, although the responsible staff is always available for consultation. Practical style are chosen to best suit the process under study: exercises using standard tools (Excel sheets, calculations) to grasp the main (1D) “vertical” processes. The extension to 2-3D is done in Q2.2 in a natural conjunction along the course.\nThe blending between the theory and the practical is done through the use of Jupyter NoteBooks (JNB) where complementary explanations and exercising are together. Python is slowly introduced in this routinely work that is part of the Centre of Expertise in Big Geodata Science (CRIB) at ITC.\nThe course counts on Question Hour, practice quizzes and exploration in Field measurement and devices from the new LILA experimental site of the UT."@en . "Core ITC (Q1). Physics and math background. ,To have completed the Core Course of ITC (Quartile 1).\nThe strongly advised conditions are good skills in physics and math, high marks in the Remote Sensing related topics of the Core (Q1), have previous exposure to hydrology and activities in the Water Sector."@en . "13"^^ . "2" . "1B" . "2022-11-13T23:00:00Z"^^ . "The interrelated Water and Energy cycle ultimate control all water presence and climatic processes on Earth, and consequently, the life of all beings and its quality. To understand those cycles is foundational to any conservative and sustainable action we, as professionals, may attempt in our environment. This course digs into the most critical and delicate balance of nature. \n\nTo explain the importance of the components of the water and energy cycle, the course envisages two end practical examples: the calculation of Water Productivity (Crop per Drop) and the evaluation of droughts. Water Productivity estimates is obtained after the studies of the radiation balance and evapotranspiration and droughts is the end product of the previous learnings and the addition of the precipitation, soil moisture and groundwater concepts. Along the course physical processes and their Remote Sensing retrievals are fully integrated.\n\nIt is to note that this Q2.1 is designed being supplementary to the Q2.2, in a dual treatment manner, wherein Q2.1 focuses on the understanding of Physical Processes and Q2.2 on Earth Observation of the Water and Energy Cycles of Earth System."@en . "Hydrological and Environmental Cycles"@en . "Hydrological and Environmental Cycles"@en . "Hydrological and Environment