The Department of Surveying Engineering at the Islamic University of Lebanon equips students with the theoretical and practical expertise to excel in the dynamic field of Geomatics. Our program offers a comprehensive curriculum encompassing Surveying, Geodesy, Cartography, GIS, Photogrammetry, Remote Sensing, Hydrography, Cadastral Surveying, Geo-informatics, Web-GIS, and Geospatial Data Analytics. By merging classroom instruction with hands-on experience, we prepare graduates for advanced studies and successful careers in this evolving industry.

The Department of Surveying Engineering at the Islamic University of Lebanon envisions a future where our graduates are global leaders in geomatics, driving innovation and sustainable development through the application of geospatial technologies.

The Department of Surveying Engineering at the Islamic University of Lebanon is dedicated to producing exceptional geomatics professionals through rigorous academic programs and innovative research. By fostering a dynamic learning environment, we equip our students with the knowledge, skills, and ethical values necessary to excel in the evolving field of surveying and geospatial technologies. Our commitment to excellence extends to serving the community through applied research, industry collaborations, and the development of sustainable solutions.

Upon successful completion of the Surveying Engineering program at the Islamic University of Lebanon, graduates will be able to:

1. Apply advanced knowledge of mathematics, science, and engineering principles to solve complex geomatics problems.
2. Design and conduct experiments, as well as analyze and interpret data, to develop valid conclusions.
3. Design surveying and geospatial systems, components, or processes to meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
4. Function effectively as a member or leader of multidisciplinary teams.
5. Identify, formulate, and solve complex engineering problems by applying engineering, science, and mathematical principles.
6. Understand professional and ethical responsibility in engineering situations.
7. Communicate effectively with a range of audiences.
8. Engage in lifelong learning to acquire the knowledge and skills necessary to adapt to technological and societal changes.
9. Utilize modern surveying and geospatial technologies for data acquisition, processing, analysis, and visualization.

Apply geomatics principles to address real-world challenges in fields such as land administration, natural resources management, urban planning, and environmental monitoring.