Программа обучения "Aerospace Computer Science" в Julius-Maximilians-Universität Würzburg
Luft- und Raumfahrtinformatik
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Университет
Julius-Maximilians-Universität Würzburg
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Степень
Бакалавриат
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Специализация
Engineering
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Стоимость
0 € / Семестр
Общая Информация по Программе обучения "Aerospace Computer Science"
- Уровень: Бакалавриат
- Диплом: Bachelor of Science (B.Sc.)
- Язык обучения: Немецкий
- Начало обучения: Зимний семестр
- Срок обучения: 6 семестров
- Форма обучения: Полная
- Учебные кредиты: 180 ECTS
- Стоимость: € 0 / Семестр
- Семестровый взнос: € 123.80 / семестр
- Правила приема: Без конкурса
- Минимальный уровень немецкого: B2
- Подходящий курс Штудиенколлег: T-Kurs
Карьерные перспективы по завершению программы обучения "Aerospace Computer Science"
We already live in an information society. Worldwide, the largest revenues are generated with information and no longer with material. Information is e.g. Software, measurement data, control commands, music, movies, texts. Even in the traditionally mechanical industry, software now leads to the greatest increase in value added.
Matter represents the structure of the machines, but their behavior is controlled by software. In the meantime, designing a plane, a satellite or a car that is not software-controlled is unthinkable. In short, nothing works without software.
In the aerospace industry, the labor market has been consistently rated as very good for years. Statements about the lack of skilled workers in this area are available at all major events in the industry, such as the International Aerospace Exhibition. This need is also reflected in the numerous job advertisements of major aerospace companies and organizations, such as EADS, IABG, OHB, DLR, AIRBUS, easy to read.
The graduates of this degree program, due to their skills in system design, also open up excellent career opportunities in other areas beyond aerospace in this promising field.
The students of Aerospace Computer Science acquire basic knowledge
- about the properties of the space environment
- for the design of space systems
- for on-board data processing and instrumentation.
The focus is on physics, microelectronics, sensor technology, control engineering and computer science, as well as instruments for remote sensing and astronomy.
Ожидаемые результаты программы обучения "Aerospace Computer Science"
Master's program
Satellite Technology
After completing a bachelor's degree, space studies can be continued in the elite network of Bavaria with the internationally-oriented, elite English language program Satellite Technology in order to achieve a Master of Science degree.
The students acquire the special knowledge and skills needed to apply interdisciplinary content from physics, computer science, geosciences, electrical engineering, mathematics, natural sciences and engineering in the field of space technology to solve demanding tasks; In particular, small and micro satellite technologies are addressed.
Promotion
There are excellent opportunities at the University of Würzburg to carry out demanding doctorates in the field of space and computer science, for example in the International Doctoral College "Identification, Optimization and Control with Applications in Modern Technologies", which is funded by the Elite Network of Bavaria.
Учебный план программы обучения "Aerospace Computer Science"
The Bachelor Degree Program in Aerospace Informatics is intended to convey the special knowledge and skills necessary to apply interdisciplinary content from physics, electronics, mathematics, engineering and computer science in the field of space science, aerospace engineering to solve challenging tasks to be able to.
The aim of the training is to provide students with the key skills and knowledge that will enable them to design, develop and operate complex integrated hardware and software systems for the aerospace industry. The focus is on the combination of computer science and aerospace. To achieve this goal, aerospace computer science is divided into aerospace, computer science, mathematics and physics. These contributions help to meet the highly multidisciplinary nature of complex aerospace systems.
Students will be familiar with both the relevant branches of computer science, such as computer science. Algorithms and data structures, programming, automation and control technology or information transmission as well as basic aviation and space-specific knowledge such. Establishment and operation of launchers, satellites and aircraft, instrumentation, central avionics, on-board data processing, microprocessors and foundations of space flight mechanics. Theoretical knowledge and skills are partly explained in corresponding exercises on interesting, practical examples such as. Robot control or flight control of quadrocopters, applied. These sub-areas are supported with the necessary basic knowledge of mathematics and physics. There are compulsory courses as well as a selection of optional subjects.
Students will be able to identify aerospace-specific user requirements and knowledge of the specific boundary conditions in the aerospace industry and their learned ability to structure complex contexts, apply appropriate methodological knowledge targeted and implement system solutions. By acquiring these skills, students should be able to acquire the basic knowledge required for a consecutive Master's degree program, and later to be able to flexibly familiarize themselves with the multifaceted areas of responsibility of our society, in which the methods learned in the aerospace and civil engineering disciplines related fields can or may be used.
Through the thesis, the students demonstrate that they are able to handle a task in aerospace computer science according to the learned methods and scientific aspects and under guidance to a large extent on a thematically and temporally limited scale.
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