Degree: Master of Science (M.Sc.)
Regular program length: 4 semester (full-time program)
Credit points (ECTS): 120 credit points
Language of instruction: English
Higher semester: no
Higher semester: winter and summer term
First semester: June 15 for winter term, November 30 for summer term
Higher semester: June 15 for winter term, November 30 for summer term
First semester: June 15 for winter term, November 30 for summer term
Higher semester: June 15 for winter term, November 30 for summer term
Program details
Degree and duration
Regular program length of 2 years leading to a "Master of Science (M.Sc.)" degree; 120 credit points (corresponding to the European Credit Transfer and Accumulation System - ECTS) must be completed. Individual prorgram length may differ from regular program length.
Program structure
The goal of this MSc program is to convey the ability to independently apply scientific knowledge and methods to evaluate and solve complex scientific and social problems. To this end, a mixture of basic skills and advanced methods and applications make up the program.
The credit points (CP) total is 120. They are distributed over the different courses as follows:
- Remote Sensing 21 CP
- Mathematics and Beyond 17 CP
- Profile Courses 20 CP
- Supplementary Modules 8 CP
- Lab Rotation 20 CP
- Key Competences 4 CP
- Master Thesis 30 CP
Profile courses
Students can choose from six profiles with each a combination of two of the following topic areas:
-
Computer Vision and Geoinformatics
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Computer Vision and Remote Sensing of the Atmosphere
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Computer Vision and Environmental Geodesy
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Geoinformatics and Remote Sensing of the Atmosphere
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Geoinformatics and Environmental Geodesy
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Remote Sensing of the Atmosphere and Environmental Geodesy
Qualification profile of the graduate
Graduates of the English-language M.Sc. program "Remote Sensing and Geoinformatics" are qualified for scientific work (e.g. at universities and international research institutions), they can take up qualified employment related to the study program. Furthermore, they can contribute to the solution of civil society questions and continuously develop their own personality.
Students understand current methods and approaches of remote sensing, computer vision and geoinformatics as well as Earth observation. They assess the advantages and disadvantages of different approaches in relation to concrete problems. Furthermore, they select methods in a target-oriented manner and apply them adequately. In addition, they adapt existing methodologies and transfer approaches to new areas of application and research. Students interpret findings obtained from the application of the learned methodology scientifically and socially and correctly classify them. Students coordinate collaborative work and communicate gained knowledge competently.
Career prospects
Graduates of the degree program Remote Sensing and Geoinformatics can work in all areas where geodata is surveyed, collected, analyzed, visualized and interpreted by help of modern information technology and digital media: from automobile industry to development of appliances and electronics industry, software development, construction businesses, engineering offices, public administration and agencies to international air and space organisations. Not only is a direct start in a professional career possible, graduates with excellent accomplishments may also choose to do a doctorate which opens the possibility for a future career in research and teaching.
Characteristic features of the degree program
- future-oriented engineering program (specialization in mathematics and natural science)
- interdisciplinary focus, with a specific connection to computer science and geosciences
- study work in small, well supervised groups
- large percentage of practical experience (exercises, project work)
- research-oriented teaching through active involvement in research and engineering projects
- campus close to the city
Admission requirements
Admission requirements to the master's degree program in Remote Sensing and Geoinformatics are found in the current admission regulations. A rough overview:
- a completed bachelor’s or equivalent degree of at least 3 years duration and based on a minimum of 180 ECTS credit points in the fields of physical-natural sciences, engineering-information technology and especially geodesy or geoinformatics-affine or geoscientific fields
- necessary minimum requirements completed in the bachelor program in
- mathematics, statistics, physics and / or mechanics of 25 credit points
- geoinformatics, image processing, remote sensing, photogrammetry, geosciences, geodesy and / or cartography of 30 credit points
- declaration that you have not lost your right to take any examinations in Remote Sensing and Geoinformatics or in a study program in a related field
- proof of sufficient knowledge of English of at least B2 level according to the Common European Framework for Reference; this means for example: Test of English as Foreign Language (TOEFL) with a score of at least 90 in the internet-based test or IELTS with a minimum score of 6,.5 and no section under 5.5 or an equivalent certificate.
This proof of knowledge of the English language does not apply to applicants- with an Abitur that states they have completed English for at least 5 years up until graduation and with a grade no less than 4
- who have completed their high school or university education in the USA, Canada, Great Britain, Ireland, Australia or New Zealand
- who have completed a degree program at a university in the European Economic Area or Switzerland with English as the sole language of instruction
- a letter of motivation in which the applicant states how the master's program in Remote Sensing and Geoinformatics ties in with their career history and how it will be useful for their future career. The letter must be written in English and no more than 1 DIN A4 page in length.
Application portal
Application for the 1st semester
has passed
Application for a higher semester
has passed
Contacts
Student advisor
Student advisory services (ZSB)
+49 721 608 - 44930Annette Hildinger ∂ kit edu
Karlsruher Institut für Technologie (KIT)
Zentrale Studienberatung (ZSB)
Engelbert-Arnold-Str. 2
76131 Karlsruhe
Karlsruher Institut für Technologie (KIT)
Studierendenservice
Kaiserstr. 12
76131 Karlsruhe
First point of contact for international applicants
Karlsruher Institut für Technologie (KIT)
International Students Office (IStO)
Adenauerring 2
76131 Karlsruhe
Printed matter
Module handbook
Statutes and regulations
Titel | Stand | Download |
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2024 KIT 008 Satzung für das hochschuleigene Zugangs- und Auswahlverfahren im Masterstudiengang Remote Sensing und Geoinformatics am Karlsruher Institut für Technologie (KIT) | 27.02.2024, veröffentlicht 27.02.2024 |
Titel | Stand | Download |
---|---|---|
2024 KIT 047 Vierte Satzung zur Änderung der Zulassungs- und Immatrikulationsordnung des Karlsruher Instituts für Technologie (KIT) | 27.11.2024, veröffentlicht 24.11.2024 | |
2024 KIT 010 Dritte Satzung zur Änderung der Zulassungs- und Immatrikulationsordnung des Karlsruher Instituts für Technologie (KIT) | 27.02.2024, veröffentlicht 27.02.2024 | |
2023 KIT 015 Zweite Satzung zur Änderung der Zulassungs- und Immatrikulationsordnung des Karlsruher Instituts für Technologie (KIT) | 28.02.2023, veröffentlicht 28.02.2023 | |
2022 KIT 028 Satzung zur Änderung der Zulassungs- und Immatrikulationsordnung des Karlsruher Instituts für Technologie (KIT) | 28.04.2022, veröffentlicht 29.04.2022 | |
2021 KIT 065 Zulassungs- und Immatrikulationsordnung des Karlsruher Instituts für Technologie (KIT) | 22.10.2021, veröffentlicht 22.10.2021 |
Teaching calendar
WT 2024/25
10-21-2024 to 02-15-2025
ST 2025
04-22-2025 to 08-02-2025
WT 2025/26
10-27-2025 to 02-21-2026
ST 2026
04-20-2026 to 08-01-2026
WT 2026/27
10-26-2026 to 02-20-2027
ST 2027
04-19-2027 to 07-31-2027
WT 2027/28
10-25-2027 to 02-19-2028
ST 2028
04-18-2028 to 07-29-2028
Lectures will not take place:
- From 12-24 to 01-06
- the week after Pentecost
- on all public holidays in the state of Baden-Wuerttemberg