Studienverlaufsplan
Wahlpflichtmodule 1. Semester
Wahlpflichtmodule 2. Semester
Wahlpflichtmodule 3. Semester
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 6ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 5ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 6ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 4SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 4SWS
- 6ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
- WP
- 2SWS
- 3ECTS
Wahlpflichtmodule 4. Semester
Angewandte Biosignalverarbeitung - Einf. In maschinelle Lernverfahren
Applied biosignal processing - beat detection
Ausgewählte Kapitel der Digitalen Technologien 1
Ausgewählte Kapitel der Digitalen Technologien 2
Ausgewählte Softwaresysteme - Programmierung IV
Automotive Systems
Bewegungsanalyse
Bildgebende Verfahren der Medizintechnik 1
Bildgebende Verfahren der Medizintechnik 2
Cyber Security 1
Cyber Security 2
DSVM
DT Ergänzung
Digitale Signalverarbeitung 2
Digitale Signalverarbeitung für (Mobil-)Kommunikationssysteme
Digitalfilter
EM Design
Einführung in Maschinelles Lernen und Künstliche Intelligenz
Einführung in die Radartechnik
Einführung in die Robotik
Einführung in die mobile Robotik
Embedded Systems Hardware Design and Rapid Prototyping
Extended Reality
Extended Reality 2
Grundlagen der Mensch-Computer-Interaktion
IoT-Netze und Protokolle
IoT-Protokolle
Mathematik Ergänzungen 1
Mathematik Ergänzungen 2
Medizinische Signalverarbeitung
Neuronale Netze und Deep learning
Neurophysiologie 1
Neurophysiologie 2
RMS anerk.
RMS anerk.
Regulatorische Grundlagen für Medizinprodukte - Teil I
Regulatorische Grundlagen für Medizinprodukte - Teil II
Robotik
Robotik 1
Robotik 2
Sensorik
Smart Mobility
Softwareentwicklung robotischer Systeme mit ROS
Systembiologie 1: biologische Netzwerke
Systembiologie 2: Systemtheorie
Wahlpflichtmodule 5. Semester
Wahlpflichtmodule 6. Semester
Wahlpflichtmodule 7. Semester
Modulübersicht
1. Studiensemester
Einführung in die Programmierung- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10030
Dauer (Semester)
1
Grundpraktikum I- PF
- 5 SWS
- 5 ECTS
- PF
- 5 SWS
- 5 ECTS
Nummer
10050
Dauer (Semester)
1
Mathematik I- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10010
Dauer (Semester)
1
Mikroprozessortechnik- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10040
Dauer (Semester)
1
2. Studiensemester
Grundlagen der Elektrotechnik- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10090
Dauer (Semester)
1
Grundlagen der Medizin I + II- PF
- 8 SWS
- 10 ECTS
- PF
- 8 SWS
- 10 ECTS
Nummer
10070
Dauer (Semester)
1
Grundpraktikum II- PF
- 5 SWS
- 5 ECTS
- PF
- 5 SWS
- 5 ECTS
Nummer
10110
Dauer (Semester)
1
Mathematik II- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10060
Dauer (Semester)
1
Physikalische Grundlagen- PF
- 8 SWS
- 10 ECTS
- PF
- 8 SWS
- 10 ECTS
Nummer
10100
Dauer (Semester)
1
Kontaktzeit
60
Selbststudium
120
Lernergebnisse (learning outcomes)/Kompetenzen
Knowledge: Upon completion of this module, students will be able to:
- know advanced research methods and tools of the digital transformation (scientific) domain
- know and understand business models in the digital domain
- know TOGAF and enterprise IT & business architectures
- know training concepts
- have advanced IT literacy in tools like MS Excel
- know German vocabulary and grammar at least on A2 level
- know English vocabulary and grammar at least on C2 level
- apply research methods and tools of the scientific domain
- can develop business models based on case studies
- can develop enterprise IT architectures based on case studies
- can train users in IT tools
- use tools like MS Excel on an advanced level
- speak, understand, read and write German at least on A2 level
- speak, understand, read and write English at least on C2 level
- Students can cooperate in digital transformation projects
- Students can train users in digital technologies
- Students learn to communicate with people on different IT literacy levels
- Students learn to communicate in different languages, especially in German
- Students can plan and conduct scientific research in the digital transformation domain
- Students are aware of their own discipline and can interact with other discipline adequately
- Students can manage context beyond the IT technology domain
Inhalte
The module is the extension of the Scientific and Transversal Skills 1module and provides an additional set of several smaller training units to the students where they can develop specific competences. Up to 8 courses are offered in the summer term (according to availability). Students have to choose 3 out of 6 optional training units (from No. 1-6). For students without at least German A2, the German course (No. 7) is mandatory. For German native speakers, another language course has to be concluded at least on A1 level (No. 8). More courses can be added according to the analysis of the needs.
Course Structure
In the initial set up of the master a selection of 8 compact courses are offered. More can be added according to the analysis of the needs of actual students:
Course Structure
In the initial set up of the master a selection of 8 compact courses are offered. More can be added according to the analysis of the needs of actual students:
- Compact Course on Business Models and Business Cases (TOPSIM): This course conducts a 1-week intensive workshop as a business simulation in the TOPSIM framework. The focus is on the development of a startup idea in the field of digital transformation.
- Compact Course on TOGAF: This course conducts a 1-week intensive workshop on the TOGAF framework (The Open Group Architecture Framework). The focus is on the development of an enterprise architecture combining the business and the IT view.
- Train-the-Trainer on IT tools for projects: The goal of the course is to let the IT students develop a training, starting from the training concept (didactics, learning objectives), then developing training materials, and finally delivering the training to students from a project management Master.
- Research Methods and Tools – part B (RMT-B): Training on advanced scientific methods and tools in the digital transformation domain. The goal of the course is to prepare a concrete research project or a scientific publication. Students can continue the sequence of RMT-A and RMT-B plus a Research Seminar.
- Cross-Border Project B: During the Mai Master block week or a workshop at a partner university, projects with teams of students from several partners are formed. They conduct projects, e.g. on industry cases and present the results, e.g. in pitching.
- ICDL-Advanced Excel: This course is preparing for the Advanced Excel certificate of the International Computer Driver License (ICDL) and the respective exams. The course puts the focus on using Excel for data analytics and business intelligence.
- International Project Communication 2 e (German A2): A language certificate of German at least on level A1 has to be provided at the end of the semester. Respective courses are organized and embedded into the weekly schedule.
- International Project Communication 2 g (other language): For students with native German background (e.g. German/Austrian/Swiss citizens or students with a prior degree taught in German (e.g. “Bildungsinländer”), a language certificate in an additional language (e.g. French, Spanish, Chinese, etc.) at least on A1 level is required. In case of an English language certificate, C2 level is needed.
Lehrformen
- Compact Course on Business Models and Business Cases (TOPSIM): business simulation
- Compact Course on TOGAF: online preparation, 1-week workshop based on case study
- Train-the-Trainer on IT tools for projects: development of a training course (group work)
- Research Methods and Tools – part B (RMT-B): lecture and homework (paper writing)
- Cross-Border Project B: project and presentation
- ICDL Advanced Excel: methods & tool training
- International Project Communication 2 e (German A2): language training
- International Project Communication 2 g (other language A1 or English C2): language training
Teilnahmevoraussetzungen
MOD1-05 – Scientific & Transversal Skills 1
Prüfungsformen
- Compact Course on Business Models and Business Cases (TOPSIM): pitch presentation
- Compact Course on TOGAF: result presentation and review
- Train-the-Trainer on IT tools for projects: evaluation of the training by participants
- Research Methods and Tools – part B (RMT-B): homework (paper assignment)
- Cross-Border Project B: presentation and discussion
- ICDL Advanced Excel: test
- International Project Communication 2 e (German A2): language test
- International Project Communication 2 g (other language A1 or English C2): language test
Voraussetzungen für die Vergabe von Kreditpunkten
Successful completion of course Nr. 1, 3 out of 6 technical courses (Nr. 2-7, graded), language certificate
Verwendbarkeit des Moduls (in anderen Studiengängen)
Depending on choice of courses
Stellenwert der Note für die Endnote
5,00%
Literatur
See “MOD1-05 – Scientific & Transversal Skills 1” for 4-8
For TOPSIM (1) specific training material is provided for registered students
For TOGAF (2) specific training material is provided for registered students
For the IT tools trainings (3) online courses of instructional design are provided for registered students
For TOPSIM (1) specific training material is provided for registered students
For TOGAF (2) specific training material is provided for registered students
For the IT tools trainings (3) online courses of instructional design are provided for registered students
3. Studiensemester
Grundlagen der Medizin III- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10140
Dauer (Semester)
1
Grundpraktikum III- PF
- 5 SWS
- 5 ECTS
- PF
- 5 SWS
- 5 ECTS
Nummer
10200
Dauer (Semester)
1
Modellbildung & Simulation für die Biomedizintechnik- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10190
Dauer (Semester)
1
Programmierung- PF
- 8 SWS
- 10 ECTS
- PF
- 8 SWS
- 10 ECTS
Nummer
10160
Dauer (Semester)
1
Sensorik & Messtechnik- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10170
Dauer (Semester)
1
Signal- und Systemtheorie- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10130
Dauer (Semester)
1
4. Studiensemester
Fachpraktikum I Biomedizintechnik- PF
- 5 SWS
- 5 ECTS
- PF
- 5 SWS
- 5 ECTS
Nummer
10280
Dauer (Semester)
1
Grundlagen der Medizin IV- PF
- 8 SWS
- 10 ECTS
- PF
- 8 SWS
- 10 ECTS
Nummer
10230
Dauer (Semester)
1
Schlüsselqualifikationen- PF
- 4 SWS
- 4 ECTS
- PF
- 4 SWS
- 4 ECTS
Nummer
10270
Dauer (Semester)
1
Signalverarbeitung & Regelungstechnik- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10220
Dauer (Semester)
1
Angewandte Biosignalverarbeitung - Einf. In maschinelle Lernverfahren- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10416
Dauer (Semester)
1
Applied biosignal processing - beat detection- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10404
Dauer (Semester)
1
Ausgewählte Kapitel der Digitalen Technologien 1- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10418
Dauer (Semester)
1
Ausgewählte Kapitel der Digitalen Technologien 2- WP
- 2 SWS
- 6 ECTS
- WP
- 2 SWS
- 6 ECTS
Nummer
10419
Dauer (Semester)
1
Ausgewählte Softwaresysteme - Programmierung IV- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10402
Dauer (Semester)
1
Automotive Systems- WP
- 2 SWS
- 5 ECTS
- WP
- 2 SWS
- 5 ECTS
Nummer
10434
Dauer (Semester)
1
Bewegungsanalyse- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10432
Dauer (Semester)
1
Kontaktzeit
60
Selbststudium
120
Lernergebnisse (learning outcomes)/Kompetenzen
Knowledge: Upon completion of this module, students will be able to:
- Know relevant theoretical foundations, area: computer science and society
- Explain methodical background of case studies and surveys
- Aware of critical limitations of methods for evaluating impact
- Analyze the impact of changes in information technology on individuals, environment and society, based upon a given past scenario
- Evaluate, analyze (and within limits predict) the impact of new products/services on individuals, environment and society, during the concept and development phase
- Conduct methodologically structured evaluations (e.g. field observation, lab tests) and surveys
- Discuss impacts of changes in information technology on individuals, environment and society with experts
- Advise during product/service development on potential impacts of product/service structure/fea- tures on individuals, environment and society
- Understand scientific publication in the related area
Inhalte
Digitalization in private and professional domains is influencing intensely and sometimes even revolutionizing people’s life, the way they interact with systems, the way they interact with each other, the way a society changes. Within this course those influences will be addressed from two different viewpoints. From an analytical perspective, former and current developments and their influences will be analyzed and then projected on future trends. From a constructive perspective, those potential influences of e.g. a product or service currently in development will be taken into account to shape the prospective solution.
Course Structure
Course Structure
- Basic Overview “Computer Science & Society”
- Ethics in computer science
- Digital media and art
- Surveillance and privacy
- Artificial Intelligence and responsibility
- Case Studies “Disruptive Changes by Information Technology”
- Digitalization of work life & work environments, processes, products and services
- Evaluation of impacts (personal, environment, society)
Lehrformen
- E-learning modules and (live-)video lectures on computer science and society
- Online self-learning material on evaluation methods in social sciences
- Project work (e.g. as part of a block week), for a case study (e.g. Analyzing impacts and potentials for news products and services)
- Guest lectures with experts and trending topics (e.g. mini-lectures) as part of a block week
- Literature work and conducting (pre-)studies to improve scientific competences
Teilnahmevoraussetzungen
- Innovation Driven Software Engineering (MOD1-01)
- R&D Project Management (MOD1-04)
- Usability Engineering (MOD2-01)
Prüfungsformen
Assessment of the course: Practical Skills (50%): Group work and/or individual task, case studies and projects => demonstration/presentation of the result an Scientific Competences (50%): written paper (literature review, study report or survey, approx. 15 pages) and presentation (in class or at a student conference, e.g. International Research Conference Dortmund)
Voraussetzungen für die Vergabe von Kreditpunkten
Passed exam and passed semester assignments
Verwendbarkeit des Moduls (in anderen Studiengängen)
R&D project & Thesis
Stellenwert der Note für die Endnote
5,00%
Literatur
Robert Ciesla. (2025). The Book of Chatbots: From ELIZA to ChatGPT. Springer.
Carolina Machado, J. Paulo Davim. (2020). Industry 4.0: Challenges, Trends, and Solutions in Management and Engineering. CRC Press.
Antonis Mavropoulos, Anders Waage Nilsen. (2020). Industry 4.0 and Circular Economy: Towards a Wasteless Future or a Wasteful Planet?. Wiley.
Jean-Claude André. (2019). Industry 4.0: Paradoxes and Conflicts. Wiley-ISTE.
Hitachi-UTokyo Laboratory (2020). Society 5.0: A People-centric Super-smart Society. Springer.
Shashank Awasthi, Goutam Sanyal. (2024). Sustainable Computing: Transforming Industry 4.0 to Society 5.0. Springer.
Avadhesh Kumar, Shrddha Sagar. (2024). Digital Transformation: Industry 4.0 to Society 5.0. Springer.
Walter Frenz. (2022). Handbook Industry 4.0: Law, Technology, Society. Springer.
Neeraj Mohan, Surbhi Gupta, Chuan-Ming Liu. (2022). Society 5.0 and the Future of Emerging Computational Technologies: Practical Solutions, Examples, and Case Studies. CRC Press.
Christoph Musik, Alexander Bogner. (2019). Digitalization and Society: A Sociology of Technology Perspective on Current Trends in Data, Digital Security and the Internet. Springer.
Robin Qiu, Wai Kin Victor Chan, Weiwei Chen. (2022). City, Society, and Digital Transformation: Proceedings of the 2022 INFORMS International Conference on Service Science. Springer.
Publications in journals and conference proceedings
Carolina Machado, J. Paulo Davim. (2020). Industry 4.0: Challenges, Trends, and Solutions in Management and Engineering. CRC Press.
Antonis Mavropoulos, Anders Waage Nilsen. (2020). Industry 4.0 and Circular Economy: Towards a Wasteless Future or a Wasteful Planet?. Wiley.
Jean-Claude André. (2019). Industry 4.0: Paradoxes and Conflicts. Wiley-ISTE.
Hitachi-UTokyo Laboratory (2020). Society 5.0: A People-centric Super-smart Society. Springer.
Shashank Awasthi, Goutam Sanyal. (2024). Sustainable Computing: Transforming Industry 4.0 to Society 5.0. Springer.
Avadhesh Kumar, Shrddha Sagar. (2024). Digital Transformation: Industry 4.0 to Society 5.0. Springer.
Walter Frenz. (2022). Handbook Industry 4.0: Law, Technology, Society. Springer.
Neeraj Mohan, Surbhi Gupta, Chuan-Ming Liu. (2022). Society 5.0 and the Future of Emerging Computational Technologies: Practical Solutions, Examples, and Case Studies. CRC Press.
Christoph Musik, Alexander Bogner. (2019). Digitalization and Society: A Sociology of Technology Perspective on Current Trends in Data, Digital Security and the Internet. Springer.
Robin Qiu, Wai Kin Victor Chan, Weiwei Chen. (2022). City, Society, and Digital Transformation: Proceedings of the 2022 INFORMS International Conference on Service Science. Springer.
Publications in journals and conference proceedings
Bildgebende Verfahren der Medizintechnik 1- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10405
Dauer (Semester)
1
Kontaktzeit
60
Selbststudium
120
Lernergebnisse (learning outcomes)/Kompetenzen
Knowledge
- Knows relevant home automation systems and standards
- Know smart building concepts (e.g. VDC, BIM)
- Knows relevant trends and projects in Smart City
- Is aware of critical limitations, esp. safety and security issues
- Can design concepts for smart home/smart building/smart city systems
- Can implement IoT, Cloud and SW components into such systems
- Can apply state of the art tools and systems (e.g. KNX)
- Can select IoT and cloud platforms according to smart home/building/city requirements
- Can apply and configure Smart City platforms (e.g. FIWARE)
- Can discuss smart home/building/city systems with experts
- Can lead cross domain design in this domain
- Can contribute to Smart City Alliances (e.g. Dortmund Smart City Alliance)
Inhalte
The digital transformation is a major driver for the change in people’s living environment. It affects the technical design of infrastructure systems, starting from people’s home via larger buildings and rea- ching up to systems like cities or districts. It covers home automation, energy and mobility systems and assistance systems. The course introduces the trends, developments and standards from the smart home, smart building and smart city domains and put them into the context of software and IoT systems. The aim is to enable students to develop larger software systems within the given context and to integrate them with other IoT and cloud systems. Therefore, it is intended to form a domain specific view on the digital transformation.
Course Structure
1. Smart home
1.1 Home automation
1.2 Standards and bus systems (e.g. KNX)
1.3 Energy and mobility in smart home systems
1.4 Ambient Assisted Living
2. Smart Building
2.1 Building Information Systems (e.g. VDC, BIM)
2.2 Safety and Security in Smart Buildings
2.3 Facility Management and Smart Building
3. Smart City
3.1 Smart City concepts and relevant trends
3.2 Integration of Logistics, Energy, Supplies and Mobility
3.3 Smart City platforms, esp. FIWARE
3.4 Stakeholder and Citizen Involvement
3.5 Case Study: Smart City Alliance Dortmund
Course Structure
1. Smart home
1.1 Home automation
1.2 Standards and bus systems (e.g. KNX)
1.3 Energy and mobility in smart home systems
1.4 Ambient Assisted Living
2. Smart Building
2.1 Building Information Systems (e.g. VDC, BIM)
2.2 Safety and Security in Smart Buildings
2.3 Facility Management and Smart Building
3. Smart City
3.1 Smart City concepts and relevant trends
3.2 Integration of Logistics, Energy, Supplies and Mobility
3.3 Smart City platforms, esp. FIWARE
3.4 Stakeholder and Citizen Involvement
3.5 Case Study: Smart City Alliance Dortmund
Lehrformen
Students will be guided through a case study project. They form agile teams and collaborate in the project execution via IT tools. In addition, they write a scientific paper as group work.
- Lectures introducing concepts, methods and tools
- Project simulation (agile, virtual SW development projects with Scrum) on the case study of setting up a Smart Home Automation or Smart City platform. Several sprints are conducted over 2 months’ time. Review meetings with teachers and 2 reviews in the plenary
- Group work on writing a scientific paper, peer review by students and teachers. Excellent papers can be encouraged to submit at a conference, e.g. IEEE E-TEMS
- Presentations to communicate results
Teilnahmevoraussetzungen
none
Prüfungsformen
Assessment of the course: Theoretical knowledge: Oral exam at the end of the course (20%), Practical Skills: Group assessment on results of project simulation (50%) and Scientific Competences: paper presentation (30%)
Voraussetzungen für die Vergabe von Kreditpunkten
Passed exam and passed semester assignments
Verwendbarkeit des Moduls (in anderen Studiengängen)
Can be used as an elective in Master Embedded Systems Engineering
Stellenwert der Note für die Endnote
5,00%
Literatur
Swathika, O. G., Karthikeyan, K., & Padmanaban, S. (Eds.). (2022). Smart Buildings Digitalization: IoT and Energy Efficient Smart Buildings Architecture and Applications. CRC Press.
Jadhav, N. Y. (2016). Green and smart buildings: advanced technology options. Springer.
Smeenk, H. G., & Petock, M. (2023). Internet of Things for Smart Buildings: Leverage IoT for smarter insights for buildings in the new and built environments. Packt Publishing Ltd.
Merz, H., Hansemann, T., & Hübner, C. (2009). Building automation. Heidelberg: Springer.
Halegoua, G. (2020). Smart cities. MIT press.
Batty, M., Axhausen, K. W., Giannotti, F., Pozdnoukhov, A., Bazzani, A., Wachowicz, M., ... & Portugali, Y. (2012).
Smart cities of the future. The European Physical Journal Special Topics, 214, 481-518.
Cirillo, F., Solmaz, G., Berz, E. L., Bauer, M., Cheng, B., & Kovacs, E. (2019). A standard-based open source IoT platform: FIWARE. IEEE Internet of Things Magazine, 2(3), 12-18.
Ahle, U., & Hierro, J. J. (2022). FIWARE for Data Spaces.
Wiecher, C., Tendyra, P., Wolff, C. (2022). Scenario-based Requirements Engineering for Complex Smart City Projects, 2022 IEEE European Technology and Engineering Management Summit (E-TEMS), Bilbao, Spain.
Wolff, C., Tendyra, P., Wiecher C. (2021). Agile Systems Engineering in Complex Scenarios, 11th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, Cracow, Poland.
Jadhav, N. Y. (2016). Green and smart buildings: advanced technology options. Springer.
Smeenk, H. G., & Petock, M. (2023). Internet of Things for Smart Buildings: Leverage IoT for smarter insights for buildings in the new and built environments. Packt Publishing Ltd.
Merz, H., Hansemann, T., & Hübner, C. (2009). Building automation. Heidelberg: Springer.
Halegoua, G. (2020). Smart cities. MIT press.
Batty, M., Axhausen, K. W., Giannotti, F., Pozdnoukhov, A., Bazzani, A., Wachowicz, M., ... & Portugali, Y. (2012).
Smart cities of the future. The European Physical Journal Special Topics, 214, 481-518.
Cirillo, F., Solmaz, G., Berz, E. L., Bauer, M., Cheng, B., & Kovacs, E. (2019). A standard-based open source IoT platform: FIWARE. IEEE Internet of Things Magazine, 2(3), 12-18.
Ahle, U., & Hierro, J. J. (2022). FIWARE for Data Spaces.
Wiecher, C., Tendyra, P., Wolff, C. (2022). Scenario-based Requirements Engineering for Complex Smart City Projects, 2022 IEEE European Technology and Engineering Management Summit (E-TEMS), Bilbao, Spain.
Wolff, C., Tendyra, P., Wiecher C. (2021). Agile Systems Engineering in Complex Scenarios, 11th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, Cracow, Poland.
Bildgebende Verfahren der Medizintechnik 2- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10415
Dauer (Semester)
1
Kontaktzeit
4 SWS
Selbststudium
315 h
Lernergebnisse (learning outcomes)/Kompetenzen
Die/Der Studierende soll in die Lage versetzt werden neue Aspekten der Technik, der Ästhetik und der Produktion von Filmen zu analysieren und für seine eigenen Projekte konstruktive und innovative Lösungen und Geschäftsmodelle zu entwickeln.
Inhalte
In der Form von Vorträgen und Blockseminaren sollen neue Aspekte der Technik, Ästhetik und Produktion der Filmproduktion referiert und diskutiert werden. Teile dieser Veranstaltungen finden in Zusammenarbeit mit dem Institut für Bewegtbild im Dortmunder U statt.
Lehrformen
Projektarbeit
Prüfungsformen
1 Thesenpapier
Voraussetzungen für die Vergabe von Kreditpunkten
1 Note: Benotung des Thesenpapiers
Verwendbarkeit des Moduls (in anderen Studiengängen)
F FM 6 (Thesis)
Stellenwert der Note für die Endnote
1 Note: Benotung des Thesenpapiers
Cyber Security 1- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10423
Dauer (Semester)
1
Cyber Security 2- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10430
Dauer (Semester)
1
DSVM- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10413
Dauer (Semester)
1
DT Ergänzung- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10401
Dauer (Semester)
1
Digitale Signalverarbeitung 2- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10414
Dauer (Semester)
1
Digitale Signalverarbeitung für (Mobil-)Kommunikationssysteme- WP
- 2 SWS
- 6 ECTS
- WP
- 2 SWS
- 6 ECTS
Nummer
10420
Dauer (Semester)
1
Digitalfilter - WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10436
Dauer (Semester)
1
EM Design- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10428
Dauer (Semester)
1
Einführung in Maschinelles Lernen und Künstliche Intelligenz- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10407
Dauer (Semester)
1
Einführung in die Radartechnik- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10445
Sprache(n)
de
Dauer (Semester)
1
Lernergebnisse (learning outcomes)/Kompetenzen
Test
Einführung in die Robotik- WP
- 4 SWS
- 3 ECTS
- WP
- 4 SWS
- 3 ECTS
Nummer
10431
Dauer (Semester)
1
Einführung in die mobile Robotik- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10425
Dauer (Semester)
1
Embedded Systems Hardware Design and Rapid Prototyping- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10421
Dauer (Semester)
1
Extended Reality- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10429
Dauer (Semester)
1
Extended Reality 2- WP
- 4 SWS
- 6 ECTS
- WP
- 4 SWS
- 6 ECTS
Nummer
10433
Dauer (Semester)
1
Grundlagen der Mensch-Computer-Interaktion- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10424
Dauer (Semester)
1
IoT-Netze und Protokolle- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10440
Dauer (Semester)
1
IoT-Protokolle- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10435
Dauer (Semester)
1
Selbststudium
900
Lernergebnisse (learning outcomes)/Kompetenzen
Knowledge
- Knows state of the art in a certain scientific field
- Knows open research questions in this field
- Knows relevant literature
- Knows methodology and tools to execute project
- Knows how to document new findings according to scientific standards
- Can define and plan an own research project
- Can apply appropriate research methodology
- Can create own research findings
- Can describe state of the art, methodology and findings in a scientific report
- Can compare own findings with state of the art and do a critical discussion
- Can run an own scientific research project and create new findings
- Masters uncertainty and unknown topics in new area
- Can present and defend results (in colloquium or at a conference)
Inhalte
In the Master Thesis students will demonstrate their capability of own scientific research work in a bigger context. Students can do the Master thesis on a topic from a company or a larger university project. The starting point is the definition of the research questions they want to answer and the selection of the appropriate methodology. The students will plan and execute their research independently with regular review and consulting. They will summarize their finding in a Master thesis report. The intention of the Master thesis is to demonstrate familiarity with the research methodology in a certain scientific field and to formulate the scientific state of the art and the research questions. The student proves the ability to execute own and independent research on master level and with a certain complexity. The Master thesis can be done as a group work, too. The examination regulations describe how the individual grading will be conducted. Excellent results from Master theses are intended to be published and presented (oral or poster) at a conference.
Lehrformen
Master Theses are done individually or as group work, with individual supervision and review:
• Independent research work, in a scientific project or within an internship in industry
• Writing of a scientific report
• Presentations to communicate and discuss the findings
• E-learning course on scientific work and scientific writing
• Individual review and feedback on papers and presentations
• Independent research work, in a scientific project or within an internship in industry
• Writing of a scientific report
• Presentations to communicate and discuss the findings
• E-learning course on scientific work and scientific writing
• Individual review and feedback on papers and presentations
Teilnahmevoraussetzungen
None - can be based on research project thesis
Prüfungsformen
Assessment of the course: Master thesis about own research in an ongoing project as individual (or group) homework (90%) + presentation in colloquium (10%)
Voraussetzungen für die Vergabe von Kreditpunkten
Only one module from semester 1 - 3 open
Stellenwert der Note für die Endnote
25,00 %
Literatur
Specific scientific literature according to topic
General literature on scientific research:
Dresch, A., Pacheco Lacerda, D., & Valle Antunes Jr., J. A. (2015). Design Science Research: A Method for Science and Technology Advancement. Springer International Publishing Switzerland.
Bailey, S. (2018): Academic Writing – A Handbook for International Students (5th ed.). Routledge, New York
Bryman, A., Bell, E. (2022): Business research methods. 3rd + Edition, Oxford University Press
Mayring, P. (2014). Qualitative content analysis, Sage
Ritchie, J., & Lewis, J. (Eds.). (2014): Qualitative research practice: A guide for social science students and researchers (2nd ed.), London: Sage
Saunders, M., Lewis, P., Thornhill, A. (2023): Research Methods for Business Students (9th ed.). Upper Saddle River: Prentice Hall.
General literature on scientific research:
Dresch, A., Pacheco Lacerda, D., & Valle Antunes Jr., J. A. (2015). Design Science Research: A Method for Science and Technology Advancement. Springer International Publishing Switzerland.
Bailey, S. (2018): Academic Writing – A Handbook for International Students (5th ed.). Routledge, New York
Bryman, A., Bell, E. (2022): Business research methods. 3rd + Edition, Oxford University Press
Mayring, P. (2014). Qualitative content analysis, Sage
Ritchie, J., & Lewis, J. (Eds.). (2014): Qualitative research practice: A guide for social science students and researchers (2nd ed.), London: Sage
Saunders, M., Lewis, P., Thornhill, A. (2023): Research Methods for Business Students (9th ed.). Upper Saddle River: Prentice Hall.
Mathematik Ergänzungen 1- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10406
Dauer (Semester)
1
Mathematik Ergänzungen 2- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10412
Dauer (Semester)
1
Medizinische Signalverarbeitung- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10403
Dauer (Semester)
1
Neuronale Netze und Deep learning- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10417
Dauer (Semester)
1
Neurophysiologie 1- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10408
Dauer (Semester)
1
Neurophysiologie 2- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10409
Dauer (Semester)
1
RMS anerk.- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
RMS
Dauer (Semester)
1
RMS anerk.- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
RMS
Dauer (Semester)
1
Regulatorische Grundlagen für Medizinprodukte - Teil I - WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10437
Dauer (Semester)
1
Regulatorische Grundlagen für Medizinprodukte - Teil II- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10438
Dauer (Semester)
1
Robotik- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10410
Dauer (Semester)
1
Robotik 1- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10442
Dauer (Semester)
1
Robotik 2- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10443
Dauer (Semester)
1
Sensorik- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10411
Dauer (Semester)
1
Smart Mobility - WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10439
Dauer (Semester)
1
Softwareentwicklung robotischer Systeme mit ROS - WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10444
Dauer (Semester)
1
Systembiologie 1: biologische Netzwerke- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10426
Dauer (Semester)
1
Systembiologie 2: Systemtheorie- WP
- 2 SWS
- 3 ECTS
- WP
- 2 SWS
- 3 ECTS
Nummer
10427
Dauer (Semester)
1
5. Studiensemester
Fachpraktikum II Biomedizintechnik- PF
- 5 SWS
- 5 ECTS
- PF
- 5 SWS
- 5 ECTS
Nummer
10350
Dauer (Semester)
1
Grundlagen der Medizin V- PF
- 8 SWS
- 10 ECTS
- PF
- 8 SWS
- 10 ECTS
Nummer
10310
Dauer (Semester)
1
Projektorientiertes Arbeiten I- PF
- 4 SWS
- 4 ECTS
- PF
- 4 SWS
- 4 ECTS
Nummer
10340
Dauer (Semester)
1
Seminar- PF
- 4 SWS
- 5 ECTS
- PF
- 4 SWS
- 5 ECTS
Nummer
10300
Dauer (Semester)
1
6. Studiensemester
Praxis-/Auslandssemester- PF
- 4 SWS
- 30 ECTS
- PF
- 4 SWS
- 30 ECTS
Nummer
10360
Sprache(n)
de
Dauer (Semester)
1
7. Studiensemester
Bachelor Arbeit und Abschluss-Kolloquium- PF
- 5 SWS
- 15 ECTS
- PF
- 5 SWS
- 15 ECTS
Nummer
101
Dauer (Semester)
1
Projektorientiertes Arbeiten II- PF
- 10 SWS
- 15 ECTS
- PF
- 10 SWS
- 15 ECTS
Nummer
10380
Dauer (Semester)
1