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Software for Internet of Things (курсова робота)
Major: Computer Engineering
Code of subject: 6.123.02.E.252
Credits: 2.00
Department: Electronic Computing Machines
Lecturer: Lecturer Andrii Grebeniak
Semester: 7 семестр
Mode of study: денна
Learning outcomes: Understand the conceptual issues and versatility of the Internet of Things software design problem;
Know the problems, technologies, architectural approaches, and methods involved in designing the Internet of Things software and be able to adapt software to create an effective Internet of Things system.
Required prior and related subjects: requirements:
Fundamentals of Algorithmization and Programming
Cryptography and network security.
Global information networks
Summary of the subject: This discipline is intended for students to master the basic areas of the Internet of Things. These areas include key architecture modules, sensors and power supplies, data transfer, Internet routing and protocols, boundary computing, machine learning, and Internet of Things security. For this purpose it is supposed to study the basic methods and algorithms of interaction of remote systems.
The course work of students is to develop a prototype of the project of the Internet of Things from the terminal node to the completed application application using cloud technologies.
Assessment methods and criteria: Final control (control measure, examination), written-oral form (100%).
Recommended books: 1. Soldatos, J. River Publishers Series in Signal, Image and Speech Processing Building Blocks for IoT Analytics Internet-of-Things Analytics Building Blocks for IoT Analytics Internet-of-Things Analytics / 2016.
2. Derhamy, H. Architectural Design Principles For Industrial Internet of ThingsLule?a, Sweden , 18. C. 285.
3. Lea, P. Internet of Things for architects?: architecting IoT solutions by implementing sensors, communication infrastructure, edge computing, analytics, and security: Packt Publishing, 2018. 524c.
4. Linan Colina, A., Vives, A., Bagula, A., et al. Internet of Things IN 5 DAYS: 2016. 227c.
5. Lee, E. A., Seshia, S. A. Introduction to Embedded Systems, A Cyber-Physical Systems Approach: MIT Press, 2017. 568c.
6. Greengard, S. The internet of things: MIT Press, 2015. 230c.
7. Vermesan, O., Friess, P. Internet of things - from research and innovation to market deployment: River Publishers, 2014. 364c.
8. Kranz, M. Building the Internet of Things Implement New Business Models, Disrupt Competitors, Transform Your Industry: Wiley, 2016. 272c.
9. Buyya, R., Dastjerdi, A. V. Internet of things?: principles and paradigms: Elsevier, 2016. 378c.
Software for Internet of Things
Major: Computer Engineering
Code of subject: 6.123.02.E.250
Credits: 5.00
Department: Electronic Computing Machines
Lecturer: Lecturer Andrii Grebeniak
Semester: 7 семестр
Mode of study: денна
Learning outcomes: Understand the conceptual issues and versatility of the Internet of Things software design problem;
Know the problems, technologies, architectural approaches, and methods involved in designing the Internet of Things software and be able to adapt software to create an effective Internet of Things system.
Required prior and related subjects: requirements:
Fundamentals of Algorithmization and Programming
Cryptography and network security.
Global information networks
Summary of the subject: This discipline is intended for students to master the basic areas of the Internet of Things. These areas include key architecture modules, sensors and power supplies, data transfer, Internet routing and protocols, boundary computing, machine learning, and Internet of Things security. For this purpose it is supposed to study the basic methods and algorithms of interaction of remote systems.
The presentation of theoretical material is divided into logical blocks, each of which discusses the key points of each of the directions of the Internet of Things architecture and their properties. To gain practical skills, a series of laboratory exercises is offered, which involves learning about the WICED-Studio environment and using its capabilities to familiarize yourself with every area of ??the Internet of Things. In practical classes, students get acquainted with the implementation options of each of the areas of Internet of Things architecture. The course work of students is to develop a prototype of the project of the Internet of Things from the terminal node to the completed application application using cloud technologies.
Assessment methods and criteria: Written reports on labs, oral examination, independent work (30%); final control (control measure, examination), written-oral form (70%).
Recommended books: 1. Soldatos, J. River Publishers Series in Signal, Image and Speech Processing Building Blocks for IoT Analytics Internet-of-Things Analytics Building Blocks for IoT Analytics Internet-of-Things Analytics / 2016.
2. Derhamy, H. Architectural Design Principles For Industrial Internet of ThingsLule?a, Sweden , 18. C. 285.
3. Lea, P. Internet of Things for architects?: architecting IoT solutions by implementing sensors, communication infrastructure, edge computing, analytics, and security: Packt Publishing, 2018. 524c.
4. Linan Colina, A., Vives, A., Bagula, A., et al. Internet of Things IN 5 DAYS: 2016. 227c.
5. Lee, E. A., Seshia, S. A. Introduction to Embedded Systems, A Cyber-Physical Systems Approach: MIT Press, 2017. 568c.
6. Greengard, S. The internet of things: MIT Press, 2015. 230c.
7. Vermesan, O., Friess, P. Internet of things - from research and innovation to market deployment: River Publishers, 2014. 364c.
8. Kranz, M. Building the Internet of Things Implement New Business Models, Disrupt Competitors, Transform Your Industry: Wiley, 2016. 272c.
9. Buyya, R., Dastjerdi, A. V. Internet of things?: principles and paradigms: Elsevier, 2016. 378c.