Geodesy and Geoinformatics - Navigation and Field Robotics Track
(Master of Science)
Profile
German HZB: none
International application: German C1
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Stay abroad possible, but not obligatory.
Short Description
Automated and autonomous systems have become part of our lives: examples of helpers in the home and garden include robot vacuum cleaners and robotic lawn mowers, while automated vehicle systems provide services such as traffic jam, lane, braking and intersection assistants. They are also used in the construction industry – involving the control of construction machines – and agriculture in the form of precision farming. Current developments focus on autonomous driving and the use of UAVs (unmanned aerial vehicles).
Field robots must operate in the complex real world, i.e. outside laboratory or factory settings, in a safe, targeted manner. The successful technical development of such systems therefore requires sensing skills for positioning, navigation and environmental sensing. In addition, concepts for storing and structuring huge volumes of data from sensors are required, as well as the ability to evaluate and interpret this data using innovative filtering and AI methods.
The specialisation in “Navigation and Field Robotics” teaches these skills, placing an emphasis on environment scanning and modelling. This interdisciplinary programme combines aspects of geodesy (sensors, navigation, environmental sensing, evaluation methods, cartographic communication) with robotics technologies.
Course Content
- Autonomous systems
- Mechatronics
- Data Science – focus on environmental data
- Highly accurate maps
- Navigation and GNSS
- Robotics und computer vision
- Sensors and measurement technology
- Engineering surveying
- Informatics and software development
- Geodesy and geoinformatics
In the first few semesters students take foundation courses in geodesy and geoinformatics, computer science and robotics that are relevant to the degree programme. Compulsory lectures cover fundamental topics such as sensing, navigation, evaluation methods, software development and modelling. Students take different courses in the compulsory area, depending on the degree taken at the bachelor’s stage. Compulsory courses are supplemented by the compulsory elective area, enabling students to specialise at an early stage.
The fourth semester of the master’s degree programme is set aside for the completion of a master’s thesis within six months. Students who have passed all of the examinations and successfully completed the master’s thesis are awarded the master’s degree. Graduates are conferred the title Master of Science (M.Sc).
The master’s degree programme requires that students produce a great deal more independent scientific work than is the case at the bachelor’s stage. In this way, graduates are prepared for undertaking future research and development tasks in industry or research institutions.
Besides meeting the formal requirements governing application and enrolment, students of Navigation and Field Robotics should be interested in subject-specific and research-oriented interrelations. The ideal students are also open to new lines of scientific enquiry, creative, open to criticism and responsible-minded. A sound knowledge of engineering, mathematics and programming is a prerequisite.
Graduates of the Navigation and Field Robotics Track are well equipped to work in general and mobile automation technology. The knowledge students acquire in the master’s degree programme is highly sought after, e.g. in the building and construction industry, in transport and logistics, and in agriculture and forestry. The degree also offers excellent opportunities in the context of autonomous navigation. Relevant career opportunities are in growing, forward-looking markets, all of which have a large demand for highly qualified experts.
Admission Requirements
An undergraduate degree in a related field of study, such as
- Geodesy and Geoinformatics (Bachelor of Science)
- Civil and Environmental Engineering (Bachelor of Science)
- Electrical Engineering and Information Technology (Bachelor of Science)
- Power Engineering (Bachelor of Science)
- Computer Science (Bachelor of Science)
- Mechanical Engineering (Bachelor of Science)
- Mechatronics (Bachelor of Science)
- Sustainable Engineering (Bachelor of Science)
- Nanotechnology (Bachelor of Science)
- Computer Engineering (Bachelor of Science)
For master's degree programmes with unrestricted admission, all applicants who fulfil the admission requirements will be admitted a university place. The exact admission requirements can be found in the admission regulations:
Application Deadlines
First-year students from Germany and the EU
- June 1st – July 15th of the year for the winter semester
- December 1st – January 15th of the year for the summer semester
First-year students from non-EU countries (VPD from uni-assist is required)
- April 15th – May 31st of the year for the winter semester
- October 15th – November 30th of the previous year for the summer semester
Students resuming their studies and transfer students from Germany and the EU (application in a higher semester)
- June 1st – July 15th of the year for the winter semester
- December 1st – January 15th of the year for the summer semester
Students resuming their studies and transfer students from non-EU countries (application in a higher semester)
- April 15th – May 31st of the year for the winter semester
- October 15th – November 30th of the previous year for the summer semester
Do you have questions about studying? We are happy to help!
30167 Hannover
30167 Hannover
