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Fundamental
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Communicate orally and in writing in a foreign language (German, French or English) with at least level B2 of the European Framework.
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Design and develop geomatics and topographic projects.
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Analyze, record and organize knowledge of the environment and property layout and use that information for land planning and management.
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To understand and analyze the problems of implementation in the field of infrastructures, constructions and buildings projected from the engineering in topography, to analyze them and to proceed to their implementation.
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Capacity for decision making, leadership, human resources management and management of inter-disciplinary teams related to spatial information.
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Determine, measure, evaluate and represent terrain, three-dimensional objects, points and trajectories.
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Gather and interpret information about the terrain and all information related geographically and economically to it.
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Management and execution of research, development and innovation projects in the field of engineering.
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Planning, design, direction, execution and management of measurement processes, information systems, image exploitation, positioning and navigation; modeling, representation and visualization of territorial information in, under and on the earth's surface.
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Planning, design, direction, execution and management of processes and products applied to civil works and building, in the geomatics field.
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Planning, design, direction, execution and management of processes and products applied to environmental, agronomic, forestry and mining engineering, in the geomatics field.
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Planning, design, direction, execution and management of processes and products of application in the information society in the geomatics field.
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Planning, design, direction, execution and management of processes and products of application in cadastre and registration, land use planning and valuation, in the geomatics field.
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Ability to solve mathematical problems that may arise in engineering. Ability to apply knowledge of: linear algebra; geometry; differential geometry; differential and integral calculus; differential and partial derivative equations; numerical methods; numerical algorithms; statistics and optimization.
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Understanding and mastery of the basic concepts of the general laws of mechanics, thermodynamics, fields and waves and electromagnetism and their application to solve engineering problems.
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Basic knowledge of the use and programming of computers, operating systems, databases and computer programs with engineering applications.
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Capacity for spatial vision and knowledge of graphic representation techniques, both by traditional methods of metric geometry and descriptive geometry, as well as by means of computer-aided design applications.
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Adequate knowledge of the concept of the company, institutional and legal framework of the company. Business organization and management.
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Basic knowledge of geology, terrain morphology and climatology and apply the basic concepts in solving engineering related problems.
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Knowledge, use, and application of topographic instruments and methods suitable for surveying and stakeout.
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Knowledge, use and application of photogrammetric instruments and methods suitable for cartography.
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Knowledge, use and application of treatment techniques. Spatial data analysis. Study of models applied to engineering and architecture.
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Knowledge, application and analysis of digital image processing and spatial information from airborne sensors and satellites.
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Design, production and dissemination of basic and thematic cartography; implementation, management and exploitation of Geographic Information Systems (GIS).
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Knowledge and application of geometric geodesy.
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Knowledge of construction methods; analysis of structures; design, execution and control of infrastructures working with multidisciplinary teams, knowledge of hydraulics.
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Application of knowledge on: monitoring and control of environmental impact; management systems and environmental legislation. Environmental impact assessment. Preparation of environmental impact studies.
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Knowledge of: Safety, health and occupational hazards in the field of this engineering and in the environment of its application and development.
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Knowledge and application of geomatics methods and techniques in different engineering fields.
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Knowledge, use and application of photogrammetric and topographic instruments and methods suitable for non-cartographic surveys.
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Knowledge and management in multidisciplinary teams of spatial data infrastructures (SDI).
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Knowledge and application of the methods and techniques of physical and spatial geodesy; geomagnetism; seismology and seismic engineering; gravimetry.
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Knowledge of mathematical cartography.
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Knowledge of: cadastral management: physical, legal and fiscal aspects; land registry; appraisals and valuations.
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Aptitude and capacity to develop territorial analysis and planning and territorial sustainability in working with multidisciplinary teams.
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Knowledge and application of least square adjustment methods in the field of topo-geodetic, photogrammetric and cartographic observations.
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Original exercise to be performed individually and presented and defended before a university tribunal, consisting of a project in the field of specific technologies of Geomatics Engineering and Topography of a professional nature in which the competences acquired in the courses are synthesized and integrated.
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