. . "3"^^ . "Apply"@en . . . . . "Build and query a spatial database according to specific requirements and data"@en . . . "Build and query a spatial database according to specific requirements and data"@en . "3.0" . . . "3"^^ . "Apply"@en . . . . . . "Develop a basic functional web interface using HTML, CSS and JavaScript"@en . . . "Develop a basic functional web interface using HTML, CSS and JavaScript"@en . "3.0" . . . "3"^^ . "Apply"@en . . . . . "Select appropriate visualization techniques for data exploration and dissemination"@en . . . "Select appropriate visualization techniques for data exploration and dissemination"@en . "3.0" . . . "2"^^ . "Understand"@en . . . "Explain the basic elements of programming languages (SQL, Python, JavaScript) and infer their potential in a GIS context"@en . . . "Explain the basic elements of programming languages (SQL, Python, JavaScript) and infer their potential in a GIS context"@en . "2.0" . . . "2"^^ . "Understand"@en . . . "Explain the process to design a Web mapping application"@en . . . "Explain the process to design a Web mapping application"@en . "2.0" . . . "3"^^ . "Apply"@en . . . . . "Translate use and user specifications into a basic web-app design"@en . . . "Translate use and user specifications into a basic web-app design"@en . "3.0" . . . "3"^^ . "Apply"@en . . . . "Explain and apply raster- and vector-based spatial analysis operations with a moderate level of complexity"@en . . . "Explain and apply raster- and vector-based spatial analysis operations with a moderate level of complexity"@en . "3.0" . . . . . . . . . . "Spatial analysis transforms data into information that can be shared with others on the Internet. In this\nunit, students explore different spatial analysis techniques and learn fundamental concepts on geo\u0002information dissemination. Moreover, students will get to discover the basics of Python language and the\nprinciples of web-design"@en . . "Data analysis"@en . . . . . . . . . . . . "In this module students will first be introduced to the faculty, the course, and review some general\nconcepts. They will then learn the basics on how to design and create a relational database and how to\nretrieve information from it. Students will also be presented a prototype of the web application that they are\nexpected to reproduce during the course."@en . . "Data management"@en . . . . . . . . "For clear information transfer to the user, the application requires an understandable Graphics User and\nclear display of the data. In this unit, students explore the potential of computer languages for spatial data\nvisualisation and web dissemination."@en . . "Visualisation and dissemination"@en . . . . . . . . . . "Give users easy access to the information is a combination of understanding the interface of the\napplication and visualisation of the information. In this unit, the focus is on assembling the application\nmaking use of all the knowledge acquired in previous modules. Students are also encouraged to reflect on\npossible ways to customise the application for other purposes."@en . . "Functionality and assembly"@en . . . . "Geoversity lets you get inspired by and learn from world-leading players in geospatial science."@en . "Geoversity"@en . . "Geoversity"@en . . . "Course"@en . "This course focuses on the process of designing and building a web application for geodata dissemination from a spatial problem-solving perspective. At the start of the course, you will be presented with a web application that has been developed in response to a certain geospatial challenge. Throughout the course, you will learn the theoretical concepts and practical skills necessary to be able to recreate this application by yourself. From scratch, step-by-step, you will rebuild the application while learning core notions of spatial data management, analysis, and visualization, basic programming skills, as well as hands-on training for installing and setting-up of a geodatabase, webserver, map-server and used frameworks. The course revolves around a didactic case study on food security in Burundi, East Africa. You will learn how to build a geospatial web application that serves to better understand producers’ accessibility to food markets in that country. At the end of the course, you will reflect on possible ways to adapt the tool to tackle a real local problem in your country. During this course, you will follow the complete cycle to design and build a geo-web application, learning what is necessary to be able to correctly handle each of its subsequent stages. In this way, you will be able in the future to create similar applications on your own that are useful for other purposes."@en . "Geo-web app building with opensource GIS tools"@en . "Geo-web app building with opensource GIS tools"@en