| Código |
17951
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| Ano |
1
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| Semestre |
S2
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| Créditos ECTS |
6
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| Carga Horária |
PL(30H)/T(30H)
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| Área Científica |
Informática
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Learning outcomes |
At the end of UC the student must:
a) Know how to identify the different architectures and platforms for the Internet of Things,
b) Plan, develop and install solutions for integration with the Internet of Things,
c) Defining the necessary network architectures to support the communication and service needs
d) Integrating equipment and communication technologies for local and wide area networks, including e) The choice of Computing and other resources usage in the Cloud,
f) Identify the trends of the development of technology in the Internet of Things
g) Know the trends in research in the area of Internet of Things, considering
h) Ethical, Moral, Security and Privacy problems of the Internet of Things.
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Syllabus |
1. IoT Concepts, Domains
2. IoT Architecture and Architecture Standardization for interoperability
3. Platforms (hardware, sensors, software)
4. Internet of Things - Applications
5. Technology of Connected Devices – Device Types, Sensors, Actuators.
6. Internet of Things – Networking and Connectivity (wired/wireless, Wi-Fi, cellular, ZigBee, LoRa)
7. Technology of Connected Devices – Energy Considerations, Energy Expenditure and Energy Harvesting. 8. Internet of Things - Middleware
9. Wearable Algorithms.
10. Internet of Things – Cloud Computing
11. Cloud of Things – Mobile Computing, Cloud Architecture
12. Data: Monitoring & Exceptions vs Prediction & Optimization
13. Morality, Ethics, Security and Privacy
14. Case Study
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Teaching Methodologies and Assessment Criteria |
1. Lecturing is coherent with the proposed objectives as it allows conveying to the students the theoretical subjects and concepts of the Internet and its communication services;
2. Supervised group and individual work serves the goals as it allows independent study, oriented research, intragroup discussion, and the resolution of exercise sheets contributes to the domain of the desired skills;
3. Peer learning is consistent with the goals and achieved through the debate intra and extra group, facilitating the comprehension of the paradigm’s concepts and allowing the students to acquire knowledge of new areas for networking and the Internet.
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Main Bibliography |
Colin Dow, Internet of Things Programming Projects, 2018, Packt Publishing, ISBN 978-1-78913-480-3
Peter Waher (editor), Mastering Internet of Things, 2018, Packt Publishing, ISBN 978-1-78839-748-3
Edward Sazonov, Michael R. Neuman (editors), Wearable Sensors: Fundamentals, Implementation and Applications, 2014, Academic Press/Elsevier, ISBN 978- 0124186620
Honbo Zhou, Internet of Things in the Cloud – A Middleware Perspective, 2012, CRC Press, ISBN 978-1439892992
Claire Rowland, Elizabeth Goodman, Martin Chalier, Ann Light, Alfred Lui, Designing Connected Products: UX for the Consumer Internet of Things, 2015, O’Reilly Media, Inc, ISBN 978-1449372569
Request for Comments (RFCs). URL: http://www.rfc-editor.org/overview.html • Fontes de informação na Web / Web sources.
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| Language |
Portuguese. Tutorial support is available in English.
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