. "Space communication"@en . . "5" . "Learning outcomes of the course unit:\nStudents will acquire basic knowledge concerning satellite and deep space communication challenges and approaches how to address them from information theory and communication theory point of view. Particularly they will know which channel models and signals are applicable in space communication and why transmission coding is inevitable for deep space communications and advantageous for satellite communication systems. They will know the concept of optimal receiver for linear and nonlinear modulations used in space communication, transmission codes starting from first used in space and finishing with up to date ones, how they are encoded and decoded using hard and soft methods starting from syndrome decoding and finishing with turbo and belief propagation decoding. They will be able to calculate link budget for space communication systems, know basic modulations and multi access method used in satellite communications systems. They will also become aware about application of communication and communication-like signals in telecommunication, navigation and sensing satellites Course Contents:\n1. Satellite, deep space and terrestrial communication systems and bandwidths for wireless communication;\n2. Channel models and signals applicable in space communication and their interaction with systems;\n3. Optimal receiver;\n4. Space communication from Information theory perspective;\n5. Channel capacity and why transmission codes are inevitable in space communication in AWGN channel;\n6. Convolutional codes-first transmission codes in applied in space;\n7. From first block codes applied in space- Golay codes to Reed Solomon codes;\n8. Up to date space codes;\n9. Link budget;\n10. Satellite systems;\n11. Multiple access in telecommunications satellites;\n12. Bandwidths, signals and transmission codes for satellite communication, navigation and sensing.." . . "Presential"@en . "FALSE" . . "Signal Processing"@en . . . . . . . . . . . . . . . . . . . . . . . . . "Master in Space Engineering"@en . . "https://www.stuba.sk/english-1/stu/ects-label/ects-information-package/information-on-degree-programmes/all-programmes.html?page_id=5552&f=30&le=2&l=all&c=0&pg=1&ad=true#" . "120"^^ . "Presential"@en . "The graduate of the second-degree study program Space Engineering will acquire a full university degree in the field of Electrical Engineering with a dominant focus on modern and multidisciplinary engineering technologies used mainly in high-performance cosmic and space systems, but also in other electronic system components. As part of the study and completion of profile subjects such as: Materials and construction of space systems, Sensors and actuators, Energy sources, Microsystem technology, Interaction of radiation and matter, Space devices, Space research methods, the graduate will acquire a wide range of knowledge and skills in areas that are an integral part of integrated technological systems for space applications. The graduates will be able to solve complex technical tasks and research issues under different individual projects. Students will also practice working in a project team, where they gain management skills and other soft skills. Thus, the graduates of Space Engineering study will obtain competitiveness not only in space applications but also in other research areas, industry fields, as well as social life. Key Learning Outcomes:\n\"The graduate will learn to design, optimize, and construct advanced embedded electronic systems, sensor systems, various types of microsystems, robotic and propulsion systems, as well as control, navigation, and communication systems, and will use information technology and artificial intelligence in their design.\nThe graduate has knowledge of astrophysics, astrodynamics, astrobiology as well as mechanics and thermo-kinetics of space systems and can apply skills in the use of modern engineering CAE tools, including modelling and simulation of electro-mechanical systems.\nThe graduate is prepared to solve theoretical and practical tasks in the development of complex systems, especially for space applications using modern engineering tools, technologies, and an interdisciplinary systems approach.\""@en . . . "2"@en . "FALSE" . . . "Master"@en . "Final Exam of content of DP" . "15100.00" . "British Pound"@en . "31100.00" . "None" . "The graduate will find employment not only in the field of space engineering and advanced electronic systems, but also in related areas of industry, such as robotics, mechatronics, informatics, automotive industry (mechanical engineering), and others. Application is not limited to employment in the Slovak Republic and its surroundings, but also abroad, where graduates can offer high expertise in several industries."@en . "1"^^ . "FALSE" . "Upstream"@en . . . . . . . . . . . . . . . . . . . . . . . . . . .