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Module: IoT Design Methodologies (M1)
| Study level | Master | |
| ECTS credits | 3 | |
| Study forms | Hybrid or fully online | |
| Module aims | To develop students' knowledge of methodologies for designing IoT systems. To offer practical experience in designing and modelling an IoT system. | |
| Pre-requirements | Has some understanding of IoT (passed module "Introduction to IoT") | |
| Learning outcomes | After completing this module, the student: - has an overview of existing design methodologies - understands the IoT system design concepts - understands the SysML concept and uses it to model the IoT system - understands the system thinking concepts and tools |
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| Topics | Introduction to IoT design methodologies IoT system design principles IoT System design goals IoT System design challenges System thinking and IoT design methodology System modeling |
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| Type of assessment | Prerequisite of a positive grade is a positive evaluation of module topics and presentation of practical work results with required documentation | |
| Blended learning | ||
| References to literature | 1. IOT-OPEN.EU, Introduction to the IoT 2nd Edition, 2024 2. Samuel Greengard, The Internet of Things, 2015, ISBN: 978-0262527736 3. Sensors and Microcontrollers to the Cloud (Make: Projects), 2011, ISBN: 978-1449393571 4. Sanford Friedenthal, Rick Steiner, Alan Moore, Practical Guide to SysML: The Systems Modeling Language 3rd edition, 2014, ISBN: 9780128002025 5. Lenny Delligatti, SysML Distilled: A Brief Guide to the Systems Modeling Language, 2013, ISBN: 9780321927866 6. The Fifth Discipline: The Art and Practice of Learning Organisation by Peter M. Senge 7. Thinking in Systems: A Primer by Donella H. Meadows |
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| Lab equipment | 1. Vensim (software) 2. Visual Paradigm (software) |
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| Virtual lab | https://iot.aei.polsl.pl | |
| MOOC course | http://edu.iot-open.eu/course/view.php?id=6 | |
