• Semester: Summer semester
• Module elements: Lecture and exercise

Course content:

In the course Telematics Technology and Applications, students will acquire detailed

knowledge of basic telematics technology and its applications.

are taught. Particular emphasis is placed on the fact that knowledge is imparted equally via the lecture and the accompanying exercises. Practical applications are discussed in the exercises.

Telematics technologies include

• Modeling of telecommunication systems
• Internet, mobile communication, satellite services
• Public telecommunication networks, standardization procedures
• Telematics hardware, medical sensor technology
• Physiological and psychological principles

Applications based on this include

• Electronic markets/marketing, Technical infrastructures, MCommerce, Payment systems, Security, Legal framework, Logistics - RFID in retail
• Multimedia learning systems
• Traffic telematics, MIV applications, technologies (GPS, DAB, ...)
• Multimedia electronic patient records, data cards in healthcare, network-based services
• Telemedicine in medical care, public health information for citizens and patients
• Cost/benefit ratios for doctors and patients, Technological framework conditions, Legal framework conditions

• Semester: Summer semester
• Module elements: Seminar and colloquium

Course content:

• Selected topics on current research work in medical technology in the areas of
  • Technical therapy devices and approaches
  • Medical image processing
  • Innovative diagnostics
  • Innovative medical IT systems
  • Digital health and care applications
  • Biomedical sensor technology
  • Virtual and augmented reality in diagnosis and therapy
  • Medical technology in prevention and rehabilitation
• In the medical technology colloquium, innovative technical processes are presented and discussed from the perspective of developers and users as part of a lecture series with speakers from medical technology manufacturers and users.

• Semester: Winter semester
• Module elements: Lecture

Course content:

• Basics and thematic classification
• Computer science vs. medical informatics
  • The history of medical informatics
  • Ethical/moral and legal aspects of medical informatics
  • informatics
  • Basic concepts and methods of medical informatics
  • Overview of applications of computer-aided procedures in medicine
• Sub-areas of medical informatics
  • Information systems in the healthcare sector
  • Hospital information systems
  • Medical image archives
  • Systems for diagnosis and therapy support
• IT systems in medical practice
  • Functional diagnostics procedures
  • Imaging systems
  • Therapy systems
  • Monitoring systems
  • Medical information processing
  • Important legal regulations
  • Medical technology applications
• Prospects
• Current research and future application scenarios in medical informatics

• Semester: Winter semester
• Module elements: Lecture and seminar

Contents of the lecture:

• Basics and thematic classification
• Computer science vs. medical informatics
  • The history of medical informatics
  • Ethical/moral and legal aspects of medical informatics
  • medical informatics
  • Basic concepts and methods of medical informatics
  • Overview of applications of computer-aided procedures in medicine
• Sub-areas of medical informatics
  • Information systems in the healthcare sector
  • Hospital information systems
  • Medical image archives
  • Systems for diagnosis and therapy support
• IT systems in medical practice
  • Functional diagnostics procedures
  • Imaging systems
  • Therapy systems
  • Monitoring systems
  • Medical information processing
  • Important legal regulations
  • Medical technology applications
• Prospects
• Current research and future application scenarios in medical informatics

As part of the creative medical informatics seminar, students work in small groups to develop a solution concept for an imaginary medical product. In addition to identifying a gap in the medical technology or medical informatics market, the aim of the seminar is to design a plausible solution approach for such a system based on currently available scientific findings. The seminar ends with a presentation that summarizes the research and conceptual results and presents them to other groups and the supervisors.

• Semester: Winter semester
• Module elements: Lecture and exercise

Course content:

The course content initially deals with the physiological and psychological abilities of humans and the resulting boundary conditions for the coding of multimedia data. At the beginning there is a summary of the basics of communication. The historical foundations of multimedia data include text, writing and fonts. The basics of vision and color are the preparation for raster image data formats. The human ability to hear and psychoacoustics form the audio basics. Building on this, audio data formats are discussed. Classic (analog) video technology is the preliminary consideration for digital video compression methods. MPEG, multimedia encryption standards, as well as the transmission of media content with digital broadband audio/video transmission methods such as DVB. Media law and media economics shed light on the social and economic implications of telematics in the multimedia sector.

• Semester: Varying annually
• Module elements: Lecture/seminar

Course content:

In the course "Current Topics in Health Sciences", highly topical issues from the Schools's teaching areas, but also from related subject areas such as ethics or law, are presented and discussed. By participating in the event, students gain a particularly specific insight into an acute health science topic and can thus establish a particularly constructive link between the visible social debate and the actual specialist background. In the case of interdisciplinary topics, students also receive meaningful thematic links to their previous study program and the application in practice.

• Semester: Winter semester
• Module elements: Lecture and exercise

Course content:

• Conceptual basics (data science, data analytics, big data)
• Information retrieval in medicine
• Data mining in medicine
• Text mining in medicine
• Processing sensor data and data streams
• Analytics for big data
• Prevention systems
• Use cases for data science in medicine
• Risks and challenges
• Current trends and developments

• Semester: Winter semester
• Module elements: Practical course

Course content:

The specialization internship combines the field of computer science/medical technology with the application field of medicine. Students also learn about the interaction between hardware and software. Step by step, practical experiments are used to learn and test the skills required to achieve the set focus of the practical course.

• Semester: Winter semester
• Module elements: Lecture and seminar/exercise

Contents of the lecture:

• Importance of safety, security and security in medical applications
• Lifecycle regulations in the context of safety
• Functional safety
• Requirements analysis
• Software development
• Hardware development
• Testing
• Risk management
• Documentation

In the seminar/exercise, the necessary steps to comply with the regulations, standards and requirements presented in the lecture are discussed and implemented using a partially completed product.

• Semester: Winter semester
• Module elements: Lecture and seminar

Course content:

• Capturing knowledge
• Ontology-based knowledge management
• Communities of practice, collaboration tools, social software
• Process-oriented knowledge management
• Personal knowledge management
• Case-based reasoning
• Linked open data
• Risks and limitations
• Use cases and outlook

• Semester: Summer semester
• Module elements: Lecture

Course content:

• Knowledge, data and information
• Boolean algebra
• Algorithms
• Switching networks and switching systems
• Compilers and interpreters

• Semester: Summer semester
• Module elements: Lecture and practical course

Course content:

• Fundamentals of AI in medicine
• AI methods and their application in medicine
• Solutions for diagnostic recommendations
• Methods for the prevention and detection of risks
• Personalized treatment planning
• Optimization of care and treatment processes
• Cognition-guided surgery
• Drug interactions
• Risks and challenges
• Current trends and developments

• Semester: Summer semester
• Module elements: Lecture and seminar

Course content:

• Fundamentals of the German healthcare system
• Organization of the medical profession - functions and goals
• Introduction to the healthcare industry
• The insurance system
• Other forms of care
• Digital process support and standards
• E-health/telemedicine
• E-commerce/e-procurement
• M-Health/Apps
• Opportunities and risks: Data protection