D.9. Key Learning Outcomes

1. Define problems in Geomatics Engineering and use Information Technology effectively in order to solve these problems.

2. Learn basic Mathematics, Science and Engineering formations and use them productively in professional life

3. Choose, use and improve recent technology and methods that needed for Geomatics Engineering applications

4. Earn the ability of producing new spatial products with data coming from international Geomatics application by using his/her qualification of obtaining, interpretation and analyzing of spatial data and by adding personal viewpoint

5. Estimate geodetic and geodynamic parameters with geodetic observations and use kinematic and dynamic functional models effectively in studies

6. Know advanced national and international applications in areas of Photogrammetry and Laser Scanning and contribute to the development processes of these applications

7. Develop strategies for data collection from space/aerial images and aerial/terrestrial laser scanning data; define the most appropriate methods for data extraction from collected data; process, analysis, integrate data with other spatial data, develop models; attend to field works and present results and outputs visually, statistically and thematically

8. Develop case / aim specific static or dynamic online systems, design spatial database management systems and produce visual products by following recent developments in GIS environment

9. Find solutions for aim relevant data obtainment by being familiar with working principle of scanning devices and sensors and their usage areas

10. Design systems which are considering scientific facts for more economically and more reliable management of industrial and infrastructure applications

11. Consider factors of social, environmental, economic, health and job security in professional life.