Master program Remote Sensing and Geo-Informatic

  1. Description
  2. Syllabus
  3. Entrance examination - requirements

Description

.....target audience of the study offer

Master program Remote Sensing and Geo-Informatic designed for both engineering and bachelor's degree graduates. Unique teaching method characterized by large blocks, without dividing them into small individual subjects. Only approximately 5 weeks live classes at the university. Mainly workshops and group work. Traditional lectures, as a conventional form of education, are limited to a minimum.

Are you interested in acquiring knowledge and skills in the field of Geo-Informatics with a focus on Remote Sensing? Wondering what a master's program can offer to prepare you for a career in this rapidly evolving field?

……general information

The Master's program in Remote Sensing and Geo-Informatics is an exciting program that focuses on the application of modern remote sensing and geoinformatics technologies in spatial data analysis. Through this program, you will gain advanced knowledge in acquiring, analyzing, and interpreting data from various remote sensing sources such as satellites, airborne, drone LiDAR scanners, thermal cameras, and much more.

During your studies, you will have the opportunity to learn about the latest image processing tools and techniques, machine learning, and geospatial data analysis. You will also acquire skills in programming, 3D modeling, data visualization, and geospatial information management.

The Master's program in Remote Sensing and Geo-Informatics will prepare you for work in various sectors including environmental protection, spatial planning, scientific research, crisis management, urban planning, agriculture, energy, transportation, and many more. You will be able to apply your knowledge and skills to solve real-world problems related to spatial data analysis and make informed decisions.

As part of these studies, you will also have the opportunity to collaborate with leading experts in remote sensing and geoinformatics and participate in research projects. Furthermore, the Master's program in Remote Sensing and Geo-Informatics provides flexibility as most of the classes can be conducted remotely, allowing you to tailor your learning to your individual schedule.

If you are interested in gaining knowledge and skills in the field of remote sensing and geoinformatics, the Master's program in Remote Sensing and Geo-Informatics is an excellent choice. Join our program, excel in this exciting field, and contribute to creating a better and more sustainable world based on spatial data analysis!

.....knowledge

Graduates of the Remote Sensing and GeoInformatics program acquire advanced knowledge that enable them to develop and implement innovative solutions in the field of remote sensing and geoinformatics. They possess a strong foundation in processing and analyzing multispectral, hyperspectral, thermal, and radar images. They can effectively interpret data from various sources and extract essential information regarding land cover and land use changes, environmental transformations, ecological and geological processes, as well as support decision-making processes related to natural resource management. The curriculum also encompasses the utilization of computational data processing techniques based on artificial intelligence (AI) and machine learning. Students gain proficiency in employing advanced algorithms and tools for the analysis and interpretation of large sets of geospatial data. As a result, they can generate models, forecasts, and thematic maps that find applications in various fields such as spatial planning, natural resource management, environmental monitoring, and scientific research.

.....skills

An important aspect of education in the field of Remote Sensing and GeoInformatics is the development of skills in working with different tools and technologies, including geographic information systems (GIS), image processing software, and spatial data analysis platforms. Students have the opportunity to learn both the theory and practical application of these tools.

.....practice, projects

As part of the curriculum, students also have the opportunity to gain practical experience through participation in research projects, internships in companies and institutions related to remote sensing and geoinformatics, as well as participation in workshops and industry conferences. This prepares them well for entering the job market and enables them to pursue employment in diverse sectors such as spatial planning, environmental protection, agriculture, energy, transportation, and scientific research.

.....summary

Studies in Remote Sensing and GeoInformatics provide comprehensive knowledge and skills required to work as specialists in the field of remote sensing and geoinformatics. Graduates are prepared to meet the challenges associated with the information-based economy and the complexities of environmental monitoring, spatial data analysis, and the utilization of cutting-edge technologies to support sustainable development. They are also equipped to make critical decisions concerning our planet.

REMOTE SENSING & GEO-INFORMATICS - syllabus

1 semester

Earth observation and Geoinformation Science

Python for Remote Sensing

Transitional work on geo-informatics in remote sensing – individually selected issue solved under the supervision of a tutor

2 semester

Time Series Analysis

Machine learning

Data Science for Smart Environment

Geo-information Tools

Transitional work on machine learning in smart environment – individually selected issue solved under the supervision of a tutor

3 semester

Natural Hazards and Disaster Risk Reduction

Urban Planning and Environmental Management

Transitional work on geoscience in environmental management – individually selected issue solved under the supervision of a tutor

4 semester

Master Thesis

Humanities and social science

Elective

Entrance examination - requirements

REMOTE SENSING AND GEO-INFORMATICS (RS&GI) master - Examination Topics:


Dokumentacja


Remote sensing - good practice